- published: 25 Aug 2013
- views: 37082
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Calculus based review of Newton’s three laws, basic forces in dynamics such as the force of gravity, force normal, force of tension, force applied, force of friction, free body diagrams, translational equilibrium, the drag or resistive force and terminal velocity. For the calculus based AP Physics C mechanics exam.
Want Lecture Notes? http://www.flippingphysics.com/apc-dynamics-review.html
Content Times:
0:18 Newton’s First Law
1:30 Newton’s Second Law
1:55 Newton’s Third Law
2:29 Force of Gravity
3:36 Force Normal
3:58 Force of Tension
4:24 Force Applied
4:33 Force of Friction
5:46 Static Friction
6:17 Kinetic Friction
6:33 The Coefficient of Friction
7:26 Free Body Diagrams
10:41 Translational equilibrium
11:41 Drag Force or Resistive Force
13:25 Terminal Velocity
Next Video: AP Physics C: Work, Energy, and Power Review (Mechanics)
http://www.flippingphysics.com/apc-work-energy-power-review.html
Multilingual? Please help translate Flipping Physics videos!
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AP Physics C Review Website
http://www.flippingphysics.com/ap-physics-c-review.html
Previous Video: AP Physics C: Kinematics Review (Mechanics)
http://www.flippingphysics.com/apc-kinematics-review.html
Please support me on Patreon!
http://patreon.com/FlippingPhysics
Thank you to Aarti Sangwan for being my Quality Control help
http://flippingphysics.com/quality-control.html
- published: 16 Mar 2017
- views: 5702
Visit http://ilectureonline.com for more math and science lectures!
This lecture series will cover Newton's Second Law of Physics: F=ma.
In this video, I will demonstrate how this applies to an incline that has friction.
Problem Text:
A 50kg mass is placed on an incline that makes an angle of 30 degrees with respect to the horizontal. The coefficient of friction between the mass and incline is 0.2. Find its acceleration.
- published: 20 Jan 2013
- views: 285872
I'm sure you've heard of Isaac Newton and maybe of some of his laws. Like, that thing about "equal and opposite reactions" and such. But what do his laws mean? And how do they help us understand the world around us? In this episode of Crash Course Physics, Shini talks to us about just that.
***
Produced in collaboration with PBS Digital Studios: http://youtube.com/pbsdigitalstudios
Help PBSDS win a Webby Award by voting here: https://pv.webbyawards.com/2016/online-film-video/video-channels-and-networks/science-education
Crash Course is on Patreon! You can support us directly by signing up at http://www.patreon.com/crashcourse
Thanks to the following Patrons for their generous monthly contributions that help keep Crash Course free for everyone forever:
Mark, Eric Kitchen, Jessica Wode, Jeffrey Thompson, Steve Marshall, Moritz Schmidt, Robert Kunz, Tim Curwick, Jason A Saslow, SR Foxley, Elliot Beter, Jacob Ash, Christian, Jan Schmid, Jirat, Christy Huddleston, Daniel Baulig, Chris Peters, Anna-Ester Volozh, Ian Dundore, Caleb Weeks
--
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Facebook - http://www.facebook.com/YouTubeCrashC...
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CC Kids: http://www.youtube.com/crashcoursekids
- published: 28 Apr 2016
- views: 952531
Visit http://ilectureonline.com for more math and science lectures!
In this video I will explain what is, when to use, and why do we need Lagrangian mechanics.
Next video in this series can be seen at:
https://youtu.be/uFnTRJ2be7I
- published: 30 Mar 2016
- views: 63341
Authors: Moore, Jason, University of California at Davis
Track: General
The SymPy Mechanics package was created to automate the derivation of the equations of motion for rigid body dynamics problems. It has been developed primarily through several Google Summer of Code grants over three years and is capable of deriving Newton's Second Law for non-trivial multi-body systems using a variety of methods: from Newton-Euler, to Lagrange, to Kane. The software provides essential classes based around the concepts of a three dimensional vector in a reference frame which ease the setup and bookkeeping of the tedious kinematics including both kinematic and motion constraints. There are also classes for the automated formulation of the equations of motion based on the bodies and forces in a system. It also includes automated linearization of the resulting non-linear models. The software can be used to solve basic physics problems or very complicated many-body and many-constraint systems all with symbolic results. I will go over the basic software design, demonstrate its use through the API along with several classic physics problems and some not-so-trivial three dimensional multi-body problems.
- published: 02 Jul 2013
- views: 3180
MIT 2.003SC Engineering Dynamics, Fall 2011
View the complete course: http://ocw.mit.edu/2-003SCF11
Instructor: J. Kim Vandiver
License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
- published: 03 Sep 2013
- views: 241499
Visit http://ilectureonline.com for more math and science lectures!
In this video I will explain what is Hamiltonian mechanics, how are the equations derived, how the Hamiltonian equations will simplified into classical mechanics equations.
Next video in this series can be seen at:
https://youtu.be/-VXDbFELld8
- published: 14 Apr 2016
- views: 31587
developed with YouTube
Dynamics (mechanics)
Dynamics is a branch of applied mathematics (specifically classical mechanics) concerned with the study of forces and torques and their effect on motion, as opposed to kinematics, which studies the motion of objects without reference to its causes. Isaac Newton defined the fundamental physical laws which govern dynamics in physics, especially his second law of motion.
Principles
Generally speaking, researchers involved in dynamics study how a physical system might develop or alter over time and study the causes of those changes. In addition, Newton established the fundamental physical laws which govern dynamics in physics. By studying his system of mechanics, dynamics can be understood. In particular, dynamics is mostly related to Newton's second law of motion. However, all three laws of motion are taken into account because these are interrelated in any given observation or experiment.
Linear and rotational dynamics
The study of dynamics falls under two categories: linear and rotational. Linear dynamics pertains to objects moving in a line and involves such quantities as force, mass/inertia, displacement (in units of distance), velocity (distance per unit time), acceleration (distance per unit of time squared) and momentum (mass times unit of velocity). Rotational dynamics pertains to objects that are rotating or moving in a curved path and involves such quantities as torque, moment of inertia/rotational inertia, angular displacement (in radians or less often, degrees), angular velocity (radians per unit time), angular acceleration (radians per unit of time squared) and angular momentum (moment of inertia times unit of angular velocity). Very often, objects exhibit linear and rotational motion.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Dynamics_(mechanics)
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
AP Physics
Advanced Placement (AP) Physics collectively refers to four College Board Advanced Placement Program courses and exams covering various areas of physics. Each course culminates in an exam for which high-performing students may receive some credit towards their college coursework, depending on which college or university they attend.
AP Physics B (discontinued)
AP Physics B - discontinued in 2014 - was divided into five different sections: Newtonian Mechanics, Fluid Mechanics and Thermal Physics, Electricity and Magnetism, Waves and Optics, and Atomic and Nuclear Physics. The course was the equivalent to a one-year college course that includes a laboratory component, suitable for pre-med and other non-science or engineering majors. The course was non-calculus-based, utilizing algebra and basic trigonometry to solve various physics problems. It was supposed to be equivalent to an introductory algebra-based college course in physics.
AP Physics 1 and 2
Taking the place of Physics B are two new courses, AP Physics 1 and AP Physics 2, starting in the fall of 2014. The new courses are designed to emphasize critical thinking and reasoning as well as learning through inquiry. They remain as algebra-based courses that do not require students to have taken calculus.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/AP_Physics
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Crash Course
Crash Course (also known as Driving Academy) is a 1988 made for television teen film directed by Oz Scott.
Plot
Crash Course centers on a group of high schoolers in a driver’s education class; many for the second or third time. The recently divorced teacher, super-passive Larry Pearl, is on thin ice with the football fanatic principal, Principal Paulson, who is being pressured by the district superintendent to raise driver’s education completion rates or lose his coveted football program. With this in mind, Principal Paulson and his assistant, with a secret desire for his job, Abner Frasier, hire an outside driver’s education instructor with a very tough reputation, Edna Savage, aka E.W. Savage, who quickly takes control of the class.
The plot focuses mostly on the students and their interactions with their teachers and each other. In the beginning, Rico is the loner with just a few friends, Chadley is the bookish nerd with few friends who longs to be cool and also longs to be a part of Vanessa’s life who is the young, friendly and attractive girl who had to fake her mother’s signature on her driver’s education permission slip. Kichi is the hip-hop Asian kid who often raps what he has to say and constantly flirts with Maria, the rich foreign girl who thinks that the right-of-way on the roadways always goes to (insert awesomely fake foreign Latino accent) “my father’s limo”. Finally you have stereotypical football meathead J.J., who needs to pass his English exam to keep his eligibility and constantly asks out and gets rejected by Alice, the tomboy whose father owns “Santini & Son” Concrete Company. Alice is portrayed as being the “son” her father wanted.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Crash_Course
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Dynamics
Every object experiences some form of motion which is the result of different forces acting on the object. Dynamics is the study of the forces which are responsible for this motion. Dynamics (from Greek δυναμικός dynamikos "powerful", from δύναμις dynamis "power") may refer to:
Physics and engineering
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Dynamics
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Second law
Second law may refer to:
See also
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Second_law
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
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51:04Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic introMechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist learning in UK classrooms. Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC. -
2:08:35FE Exam Review: Statics, Dynamics, Mechanics of Deformable Bodies (2016.11.07)
FE Exam Review: Statics, Dynamics, Mechanics of Deformable Bodies (2016.11.07) -
6:413. Kinematics, Dynamics and Static (Hindi)
3. Kinematics, Dynamics and Static (Hindi)3. Kinematics, Dynamics and Static (Hindi)
OVERVIEW OF KINEMATICS, DYNAMICS AND STATIC -
5:16Physics - Mechanics: Rotational Motion (1 of 6) An Introduction
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15:57AP Physics C: Dynamics Review (Mechanics)
AP Physics C: Dynamics Review (Mechanics)AP Physics C: Dynamics Review (Mechanics)
Calculus based review of Newton’s three laws, basic forces in dynamics such as the force of gravity, force normal, force of tension, force applied, force of friction, free body diagrams, translational equilibrium, the drag or resistive force and terminal velocity. For the calculus based AP Physics C mechanics exam. Want Lecture Notes? http://www.flippingphysics.com/apc-dynamics-review.html Content Times: 0:18 Newton’s First Law 1:30 Newton’s Second Law 1:55 Newton’s Third Law 2:29 Force of Gravity 3:36 Force Normal 3:58 Force of Tension 4:24 Force Applied 4:33 Force of Friction 5:46 Static Friction 6:17 Kinetic Friction 6:33 The Coefficient of Friction 7:26 Free Body Diagrams 10:41 Translational equilibrium 11:41 Drag Force or Resistive Force 13:25 Terminal Velocity Next Video: AP Physics C: Work, Energy, and Power Review (Mechanics) http://www.flippingphysics.com/apc-work-energy-power-review.html Multilingual? Please help translate Flipping Physics videos! http://www.flippingphysics.com/translate.html AP Physics C Review Website http://www.flippingphysics.com/ap-physics-c-review.html Previous Video: AP Physics C: Kinematics Review (Mechanics) http://www.flippingphysics.com/apc-kinematics-review.html Please support me on Patreon! http://patreon.com/FlippingPhysics Thank you to Aarti Sangwan for being my Quality Control help http://flippingphysics.com/quality-control.html -
9:26Projectile Motion - Engineering Dynamics
Projectile Motion - Engineering DynamicsProjectile Motion - Engineering Dynamics
introduction and explanation of the projectile motion problem -
7:01Physics - Mechanics: The Inclined Plane (2 of 2) With Friction
Physics - Mechanics: The Inclined Plane (2 of 2) With FrictionPhysics - Mechanics: The Inclined Plane (2 of 2) With Friction
Visit http://ilectureonline.com for more math and science lectures! This lecture series will cover Newton's Second Law of Physics: F=ma. In this video, I will demonstrate how this applies to an incline that has friction. Problem Text: A 50kg mass is placed on an incline that makes an angle of 30 degrees with respect to the horizontal. The coefficient of friction between the mass and incline is 0.2. Find its acceleration. -
11:04Newton's Laws: Crash Course Physics #5
Newton's Laws: Crash Course Physics #5Newton's Laws: Crash Course Physics #5
I'm sure you've heard of Isaac Newton and maybe of some of his laws. Like, that thing about "equal and opposite reactions" and such. But what do his laws mean? And how do they help us understand the world around us? In this episode of Crash Course Physics, Shini talks to us about just that. *** Produced in collaboration with PBS Digital Studios: http://youtube.com/pbsdigitalstudios Help PBSDS win a Webby Award by voting here: https://pv.webbyawards.com/2016/online-film-video/video-channels-and-networks/science-education Crash Course is on Patreon! You can support us directly by signing up at http://www.patreon.com/crashcourse Thanks to the following Patrons for their generous monthly contributions that help keep Crash Course free for everyone forever: Mark, Eric Kitchen, Jessica Wode, Jeffrey Thompson, Steve Marshall, Moritz Schmidt, Robert Kunz, Tim Curwick, Jason A Saslow, SR Foxley, Elliot Beter, Jacob Ash, Christian, Jan Schmid, Jirat, Christy Huddleston, Daniel Baulig, Chris Peters, Anna-Ester Volozh, Ian Dundore, Caleb Weeks -- Want to find Crash Course elsewhere on the internet? Facebook - http://www.facebook.com/YouTubeCrashC... Twitter - http://www.twitter.com/TheCrashCourse Tumblr - http://thecrashcourse.tumblr.com Support CrashCourse on Patreon: http://www.patreon.com/crashcourse CC Kids: http://www.youtube.com/crashcoursekids -
9:06Physics - Adv. Mechanics: Lagrangian Mech. (1 of 25) What is Lagrangian Mechanics?
Physics - Adv. Mechanics: Lagrangian Mech. (1 of 25) What is Lagrangian Mechanics?Physics - Adv. Mechanics: Lagrangian Mech. (1 of 25) What is Lagrangian Mechanics?
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain what is, when to use, and why do we need Lagrangian mechanics. Next video in this series can be seen at: https://youtu.be/uFnTRJ2be7I -
20:43Dynamics with SymPy Mechanics; SciPy 2013 Presentation
Dynamics with SymPy Mechanics; SciPy 2013 PresentationDynamics with SymPy Mechanics; SciPy 2013 Presentation
Authors: Moore, Jason, University of California at Davis Track: General The SymPy Mechanics package was created to automate the derivation of the equations of motion for rigid body dynamics problems. It has been developed primarily through several Google Summer of Code grants over three years and is capable of deriving Newton's Second Law for non-trivial multi-body systems using a variety of methods: from Newton-Euler, to Lagrange, to Kane. The software provides essential classes based around the concepts of a three dimensional vector in a reference frame which ease the setup and bookkeeping of the tedious kinematics including both kinematic and motion constraints. There are also classes for the automated formulation of the equations of motion based on the bodies and forces in a system. It also includes automated linearization of the resulting non-linear models. The software can be used to solve basic physics problems or very complicated many-body and many-constraint systems all with symbolic results. I will go over the basic software design, demonstrate its use through the API along with several classic physics problems and some not-so-trivial three dimensional multi-body problems. -
1:21:1715. Introduction to Lagrange With Examples
15. Introduction to Lagrange With Examples15. Introduction to Lagrange With Examples
MIT 2.003SC Engineering Dynamics, Fall 2011 View the complete course: http://ocw.mit.edu/2-003SCF11 Instructor: J. Kim Vandiver License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu -
7:24Physics - Adv. Mechanics: Hamiltonian Mech. (1 of 18) What is Hamiltonian Mechanics?
Physics - Adv. Mechanics: Hamiltonian Mech. (1 of 18) What is Hamiltonian Mechanics?Physics - Adv. Mechanics: Hamiltonian Mech. (1 of 18) What is Hamiltonian Mechanics?
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain what is Hamiltonian mechanics, how are the equations derived, how the Hamiltonian equations will simplified into classical mechanics equations. Next video in this series can be seen at: https://youtu.be/-VXDbFELld8 -
2:14Mechanics: Kinematics and Dynamics | MITx on edX | Course About Video
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Learn about kinematics and dynamics in this calculus-based physics course. Take this course free on edX: https://www.edx.org/course/mechanics-kinematics-dynamics-mitx-8-01-1x#! ABOUT THIS COURSE Mechanics is the study of the physics of motion and how it relates to applied forces. It lays the foundation of understanding the world around us through the how and why of motion. This physics course is the first in a series of modules that covers calculus-based mechanics. This module reviews kinematics (the geometrical description of motion) in the context of one-dimensional, multi-dimensional, and circular motion. It also reviews Newton’s laws of motion and examines their application to a wide variety of cases. This series of modules is based on the MIT subject 8.01: Physics I, required of all MIT undergraduates. The modules are: Mechanics: Kinematics and Dynamics Mechanics: Momentum and Energy Mechanics: Rotational Dynamics The course image is a picture of an MIT building with the name Newton prominently displayed. WHAT YOU'LL LEARN - Kinematics - Newton’s Laws - Circular Motion - Resistive Forces, Constraints, and Massive Ropes -
4:14Physics - Mechanics: Rigid Body Rotation (1 of 10) Basics
Physics - Mechanics: Rigid Body Rotation (1 of 10) Basics -
14:41Engineering Mechanics-Dynamics 2- Rectilinear Continuous Motion
Engineering Mechanics-Dynamics 2- Rectilinear Continuous MotionEngineering Mechanics-Dynamics 2- Rectilinear Continuous Motion
المحاضرة الثانية في شرح مادة الديناميكا Dynamics lecture (2) Rectilinear Continuous Motion لينك لبعض المسائل المتعلقة بالدرس و بالتوفيق https://drive.google.com/file/d/0B_Cw... نسعد بالتواصل معاكم من خلال الصفحة علي الفيس بوك https://www.facebook.com/EngElSamman eng.ahmedelsamman@live.com -
48:23Mechanics 1 - M1 - Dynamics of a Particle (1) Brief Intro - Newtons 2nd Law N2L
Mechanics 1 - M1 - Dynamics of a Particle (1) Brief Intro - Newtons 2nd Law N2LMechanics 1 - M1 - Dynamics of a Particle (1) Brief Intro - Newtons 2nd Law N2L
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist learning in UK classrooms. Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC. -
37:20Julie Theriot (Stanford, HHMI) 2: Mechanics and Dynamics of Rapid Cell Motility
Julie Theriot (Stanford, HHMI) 2: Mechanics and Dynamics of Rapid Cell MotilityJulie Theriot (Stanford, HHMI) 2: Mechanics and Dynamics of Rapid Cell Motility
http://www.ibiology.org/ibioseminars/cell-biology/julie-theriot-part-2.html In Part 1 of her talk, Dr. Theriot explains how tiny, nanometer sized actin molecules can self-assemble into filaments that are hundreds of microns in length. These actin filaments are constantly growing and shrinking and this dynamic behavior allows a network of actin to generate enough force to move a cell forward. The intracellular bacterial pathogen Listeria monocytogenes uses actin polymerization to propel itself through the cytoplasm and to invade other cells. Many years of studies using Listeria have allowed Theriot and others to dissect the regulation of actin network growth in Listeria “comet tails” and at the leading edge of crawling cells. In her second lecture, Theriot explains that fish keratocytes are an excellent system to study rapid cell motility. By labeling actin and myosin in keratocytes, Theriot and her colleagues were able to follow turnover of actin in the lamellipodium. Unexpectedly, they found that myosin II plays in important role in actin disassembly at the rear of the cell and asymmetric localization of myosin at the back of the cell appears to govern cell turning. Similar mechanisms of actin and myosin cooperation seem to drive rapid movement in both fish keratinocytes and human neutrophils. It has been known since the early 1990s that bacteria have homologues of both actin and tubulin. In general, however, bacteria are much simpler than eukaryotes. In her final lecture, Theriot speculates about the factors that have evolved to allow eukaryotes to modify their cytoskeletons and build bigger, morphologically complex, multicellular organisms. Speaker Biography: Julie Theriot attended college at the Massachusetts Institute of Technology, graduating with degrees in Physics and Biology. She pursued graduate training at the University of California, San Francisco, earning her Ph.D. in Cell Biology in 1993. After four years as a Fellow at the Whitehead Institute for Biomedical Research, Theriot moved to Stanford University School of Medicine where she is currently a Professor of Biochemistry and of Microbiology and Immunology. Since 2008, Theriot has also been an Investigator of the Howard Hughes Medical Institute. Theriot's research focuses on how interactions at the molecular level determine cell behavior, in particular, how cells change their shape or direction of movement. Theriot has received numerous awards for her work including fellowships from both the David and Lucile Packard Foundation and the John D. and Catherine T. MacArthur Foundation. She has also been recognized for her exceptional teaching. -
19:54D' Alemberts Principle | Dynamics | Engineering Mechanics
D' Alemberts Principle | Dynamics | Engineering MechanicsD' Alemberts Principle | Dynamics | Engineering Mechanics
Contents: 1. Newtons Second Law of Motion 2. D Alemberts Principle 3. Application of Newtons Second Law of Motion 4. Application of D Alemberts Principle 5. Comparison of both. -
1:13:211. Course Introduction and Newtonian Mechanics
1. Course Introduction and Newtonian Mechanics1. Course Introduction and Newtonian Mechanics
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu. Fundamentals of Physics (PHYS 200) Professor Shankar introduces the course and answers student questions about the material and the requirements. He gives an overview of Newtonian mechanics and explains its two components: kinematics and dynamics. He then reviews basic concepts in calculus through two key equations: x = x0 + v0t + ½ at2 and v2 = v02+ 2 a (x-x0), tracing the fate of a particle in one dimension along the x-axis. 00:00 - Chapter 1. Introduction and Course Organization 21:25 - Chapter 2. Newtonian Mechanics: Dynamics and Kinematics 28:20 - Chapter 3. Average and Instantaneous Rate of Motion 37:56 - Chapter 4. Motion at Constant Acceleration 52:37 - Chapter 5. Example Problem: Physical Meaning of Equations 01:08:42 - Chapter 6. Derive New Relations Using Calculus Laws of Limits Complete course materials are available at the Yale Online website: online.yale.edu This course was recorded in Fall 2006. -
1:42I Love Math ❤︎ | Engineering Mechanics Dynamics Course - Introduction
I Love Math ❤︎ | Engineering Mechanics Dynamics Course - Introduction
developed with YouTube
-
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist learning in UK classrooms. Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
published: 25 Aug 2013 -
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3. Kinematics, Dynamics and Static (Hindi)
OVERVIEW OF KINEMATICS, DYNAMICS AND STATIC
published: 17 Feb 2016 -
-
AP Physics C: Dynamics Review (Mechanics)
Calculus based review of Newton’s three laws, basic forces in dynamics such as the force of gravity, force normal, force of tension, force applied, force of friction, free body diagrams, translational equilibrium, the drag or resistive force and terminal velocity. For the calculus based AP Physics C mechanics exam. Want Lecture Notes? http://www.flippingphysics.com/apc-dynamics-review.html Content Times: 0:18 Newton’s First Law 1:30 Newton’s Second Law 1:55 Newton’s Third Law 2:29 Force of Gravity 3:36 Force Normal 3:58 Force of Tension 4:24 Force Applied 4:33 Force of Friction 5:46 Static Friction 6:17 Kinetic Friction 6:33 The Coefficient of Friction 7:26 Free Body Diagrams 10:41 Translational equilibrium 11:41 Drag Force or Resistive Force 13:25 Terminal Velocity Next Video: AP Physic...
published: 16 Mar 2017 -
Projectile Motion - Engineering Dynamics
introduction and explanation of the projectile motion problem
published: 15 Jun 2011 -
Physics - Mechanics: The Inclined Plane (2 of 2) With Friction
Visit http://ilectureonline.com for more math and science lectures! This lecture series will cover Newton's Second Law of Physics: F=ma. In this video, I will demonstrate how this applies to an incline that has friction. Problem Text: A 50kg mass is placed on an incline that makes an angle of 30 degrees with respect to the horizontal. The coefficient of friction between the mass and incline is 0.2. Find its acceleration.
published: 20 Jan 2013 -
Newton's Laws: Crash Course Physics #5
I'm sure you've heard of Isaac Newton and maybe of some of his laws. Like, that thing about "equal and opposite reactions" and such. But what do his laws mean? And how do they help us understand the world around us? In this episode of Crash Course Physics, Shini talks to us about just that. *** Produced in collaboration with PBS Digital Studios: http://youtube.com/pbsdigitalstudios Help PBSDS win a Webby Award by voting here: https://pv.webbyawards.com/2016/online-film-video/video-channels-and-networks/science-education Crash Course is on Patreon! You can support us directly by signing up at http://www.patreon.com/crashcourse Thanks to the following Patrons for their generous monthly contributions that help keep Crash Course free for everyone forever: Mark, Eric Kitchen, Jessica Wode...
published: 28 Apr 2016 -
Physics - Adv. Mechanics: Lagrangian Mech. (1 of 25) What is Lagrangian Mechanics?
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain what is, when to use, and why do we need Lagrangian mechanics. Next video in this series can be seen at: https://youtu.be/uFnTRJ2be7I
published: 30 Mar 2016 -
Dynamics with SymPy Mechanics; SciPy 2013 Presentation
Authors: Moore, Jason, University of California at Davis Track: General The SymPy Mechanics package was created to automate the derivation of the equations of motion for rigid body dynamics problems. It has been developed primarily through several Google Summer of Code grants over three years and is capable of deriving Newton's Second Law for non-trivial multi-body systems using a variety of methods: from Newton-Euler, to Lagrange, to Kane. The software provides essential classes based around the concepts of a three dimensional vector in a reference frame which ease the setup and bookkeeping of the tedious kinematics including both kinematic and motion constraints. There are also classes for the automated formulation of the equations of motion based on the bodies and forces in a system. ...
published: 02 Jul 2013 -
15. Introduction to Lagrange With Examples
MIT 2.003SC Engineering Dynamics, Fall 2011 View the complete course: http://ocw.mit.edu/2-003SCF11 Instructor: J. Kim Vandiver License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
published: 03 Sep 2013 -
Physics - Adv. Mechanics: Hamiltonian Mech. (1 of 18) What is Hamiltonian Mechanics?
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain what is Hamiltonian mechanics, how are the equations derived, how the Hamiltonian equations will simplified into classical mechanics equations. Next video in this series can be seen at: https://youtu.be/-VXDbFELld8
published: 14 Apr 2016 -
Mechanics: Kinematics and Dynamics | MITx on edX | Course About Video
Learn about kinematics and dynamics in this calculus-based physics course. Take this course free on edX: https://www.edx.org/course/mechanics-kinematics-dynamics-mitx-8-01-1x#! ABOUT THIS COURSE Mechanics is the study of the physics of motion and how it relates to applied forces. It lays the foundation of understanding the world around us through the how and why of motion. This physics course is the first in a series of modules that covers calculus-based mechanics. This module reviews kinematics (the geometrical description of motion) in the context of one-dimensional, multi-dimensional, and circular motion. It also reviews Newton’s laws of motion and examines their application to a wide variety of cases. This series of modules is based on the MIT subject 8.01: Physics I, required of a...
published: 06 Oct 2016 -
-
Engineering Mechanics-Dynamics 2- Rectilinear Continuous Motion
المحاضرة الثانية في شرح مادة الديناميكا Dynamics lecture (2) Rectilinear Continuous Motion لينك لبعض المسائل المتعلقة بالدرس و بالتوفيق https://drive.google.com/file/d/0B_Cw... نسعد بالتواصل معاكم من خلال الصفحة علي الفيس بوك https://www.facebook.com/EngElSamman eng.ahmedelsamman@live.com
published: 29 Mar 2016 -
Mechanics 1 - M1 - Dynamics of a Particle (1) Brief Intro - Newtons 2nd Law N2L
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist learning in UK classrooms. Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
published: 25 Aug 2013 -
Julie Theriot (Stanford, HHMI) 2: Mechanics and Dynamics of Rapid Cell Motility
http://www.ibiology.org/ibioseminars/cell-biology/julie-theriot-part-2.html In Part 1 of her talk, Dr. Theriot explains how tiny, nanometer sized actin molecules can self-assemble into filaments that are hundreds of microns in length. These actin filaments are constantly growing and shrinking and this dynamic behavior allows a network of actin to generate enough force to move a cell forward. The intracellular bacterial pathogen Listeria monocytogenes uses actin polymerization to propel itself through the cytoplasm and to invade other cells. Many years of studies using Listeria have allowed Theriot and others to dissect the regulation of actin network growth in Listeria “comet tails” and at the leading edge of crawling cells. In her second lecture, Theriot explains that fish keratocyte...
published: 29 Mar 2016 -
D' Alemberts Principle | Dynamics | Engineering Mechanics
Contents: 1. Newtons Second Law of Motion 2. D Alemberts Principle 3. Application of Newtons Second Law of Motion 4. Application of D Alemberts Principle 5. Comparison of both.
published: 14 Dec 2017 -
1. Course Introduction and Newtonian Mechanics
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu. Fundamentals of Physics (PHYS 200) Professor Shankar introduces the course and answers student questions about the material and the requirements. He gives an overview of Newtonian mechanics and explains its two components: kinematics and dynamics. He then reviews basic concepts in calculus through two key equations: x = x0 + v0t + ½ at2 and v2 = v02+ 2 a (x-x0), tracing the fate of a particle in one dimension along the x-axis. 00:00 - Chapter 1. Introduction and Course Organization 21:25 - Chapter 2. Newtonian Mechanics: Dynamics and Kinematics 28:20 - Chapter 3. Average and Instantaneous Rate of Moti...
published: 22 Sep 2008 -
developed with YouTube
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
- Order: Reorder
- Duration: 51:04
- Updated: 25 Aug 2013
- views: 37082
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist lear...
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist learning in UK classrooms.
Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
https://wn.com/Mechanics_1_M1_Dynamics_Of_A_Particle_(1)_Inclined_Planes_Basic_Intro
FE Exam Review: Statics, Dynamics, Mechanics of Deformable Bodies (2016.11.07)
- Order: Reorder
- Duration: 2:08:35
- Updated: 08 Nov 2016
- views: 27910
3. Kinematics, Dynamics and Static (Hindi)
- Order: Reorder
- Duration: 6:41
- Updated: 17 Feb 2016
- views: 75015
OVERVIEW OF KINEMATICS, DYNAMICS AND STATIC
OVERVIEW OF KINEMATICS, DYNAMICS AND STATIC
https://wn.com/3._Kinematics,_Dynamics_And_Static_(Hindi)
Physics - Mechanics: Rotational Motion (1 of 6) An Introduction
- Order: Reorder
- Duration: 5:16
- Updated: 14 Mar 2013
- views: 222992
Visit http://ilectureonline.com for more math and science lectures!
In this video I will develop the three basic angular rotational equations and show their eq...
Visit http://ilectureonline.com for more math and science lectures!
In this video I will develop the three basic angular rotational equations and show their equivalence to the linear motions equations.
https://wn.com/Physics_Mechanics_Rotational_Motion_(1_Of_6)_An_Introduction
AP Physics C: Dynamics Review (Mechanics)
- Order: Reorder
- Duration: 15:57
- Updated: 16 Mar 2017
- views: 5702
Calculus based review of Newton’s three laws, basic forces in dynamics such as the force of gravity, force normal, force of tension, force applied, force of fri...
Calculus based review of Newton’s three laws, basic forces in dynamics such as the force of gravity, force normal, force of tension, force applied, force of friction, free body diagrams, translational equilibrium, the drag or resistive force and terminal velocity. For the calculus based AP Physics C mechanics exam.
Want Lecture Notes? http://www.flippingphysics.com/apc-dynamics-review.html
Content Times:
0:18 Newton’s First Law
1:30 Newton’s Second Law
1:55 Newton’s Third Law
2:29 Force of Gravity
3:36 Force Normal
3:58 Force of Tension
4:24 Force Applied
4:33 Force of Friction
5:46 Static Friction
6:17 Kinetic Friction
6:33 The Coefficient of Friction
7:26 Free Body Diagrams
10:41 Translational equilibrium
11:41 Drag Force or Resistive Force
13:25 Terminal Velocity
Next Video: AP Physics C: Work, Energy, and Power Review (Mechanics)
http://www.flippingphysics.com/apc-work-energy-power-review.html
Multilingual? Please help translate Flipping Physics videos!
http://www.flippingphysics.com/translate.html
AP Physics C Review Website
http://www.flippingphysics.com/ap-physics-c-review.html
Previous Video: AP Physics C: Kinematics Review (Mechanics)
http://www.flippingphysics.com/apc-kinematics-review.html
Please support me on Patreon!
http://patreon.com/FlippingPhysics
Thank you to Aarti Sangwan for being my Quality Control help
http://flippingphysics.com/quality-control.html
https://wn.com/Ap_Physics_C_Dynamics_Review_(Mechanics)
Calculus based review of Newton’s three laws, basic forces in dynamics such as the force of gravity, force normal, force of tension, force applied, force of friction, free body diagrams, translational equilibrium, the drag or resistive force and terminal velocity. For the calculus based AP Physics C mechanics exam.
Want Lecture Notes? http://www.flippingphysics.com/apc-dynamics-review.html
Content Times:
0:18 Newton’s First Law
1:30 Newton’s Second Law
1:55 Newton’s Third Law
2:29 Force of Gravity
3:36 Force Normal
3:58 Force of Tension
4:24 Force Applied
4:33 Force of Friction
5:46 Static Friction
6:17 Kinetic Friction
6:33 The Coefficient of Friction
7:26 Free Body Diagrams
10:41 Translational equilibrium
11:41 Drag Force or Resistive Force
13:25 Terminal Velocity
Next Video: AP Physics C: Work, Energy, and Power Review (Mechanics)
http://www.flippingphysics.com/apc-work-energy-power-review.html
Multilingual? Please help translate Flipping Physics videos!
http://www.flippingphysics.com/translate.html
AP Physics C Review Website
http://www.flippingphysics.com/ap-physics-c-review.html
Previous Video: AP Physics C: Kinematics Review (Mechanics)
http://www.flippingphysics.com/apc-kinematics-review.html
Please support me on Patreon!
http://patreon.com/FlippingPhysics
Thank you to Aarti Sangwan for being my Quality Control help
http://flippingphysics.com/quality-control.html
- published: 16 Mar 2017
- views: 5702
Projectile Motion - Engineering Dynamics
- Order: Reorder
- Duration: 9:26
- Updated: 15 Jun 2011
- views: 40323
introduction and explanation of the projectile motion problem
introduction and explanation of the projectile motion problem
https://wn.com/Projectile_Motion_Engineering_Dynamics
introduction and explanation of the projectile motion problem
- published: 15 Jun 2011
- views: 40323
Physics - Mechanics: The Inclined Plane (2 of 2) With Friction
- Order: Reorder
- Duration: 7:01
- Updated: 20 Jan 2013
- views: 285872
Visit http://ilectureonline.com for more math and science lectures!
This lecture series will cover Newton's Second Law of Physics: F=ma.
In this video, I wi...
Visit http://ilectureonline.com for more math and science lectures!
This lecture series will cover Newton's Second Law of Physics: F=ma.
In this video, I will demonstrate how this applies to an incline that has friction.
Problem Text:
A 50kg mass is placed on an incline that makes an angle of 30 degrees with respect to the horizontal. The coefficient of friction between the mass and incline is 0.2. Find its acceleration.
https://wn.com/Physics_Mechanics_The_Inclined_Plane_(2_Of_2)_With_Friction
Visit http://ilectureonline.com for more math and science lectures!
This lecture series will cover Newton's Second Law of Physics: F=ma.
In this video, I will demonstrate how this applies to an incline that has friction.
Problem Text:
A 50kg mass is placed on an incline that makes an angle of 30 degrees with respect to the horizontal. The coefficient of friction between the mass and incline is 0.2. Find its acceleration.
- published: 20 Jan 2013
- views: 285872
Newton's Laws: Crash Course Physics #5
- Order: Reorder
- Duration: 11:04
- Updated: 28 Apr 2016
- views: 952531
I'm sure you've heard of Isaac Newton and maybe of some of his laws. Like, that thing about "equal and opposite reactions" and such. But what do his laws mean? ...
I'm sure you've heard of Isaac Newton and maybe of some of his laws. Like, that thing about "equal and opposite reactions" and such. But what do his laws mean? And how do they help us understand the world around us? In this episode of Crash Course Physics, Shini talks to us about just that.
***
Produced in collaboration with PBS Digital Studios: http://youtube.com/pbsdigitalstudios
Help PBSDS win a Webby Award by voting here: https://pv.webbyawards.com/2016/online-film-video/video-channels-and-networks/science-education
Crash Course is on Patreon! You can support us directly by signing up at http://www.patreon.com/crashcourse
Thanks to the following Patrons for their generous monthly contributions that help keep Crash Course free for everyone forever:
Mark, Eric Kitchen, Jessica Wode, Jeffrey Thompson, Steve Marshall, Moritz Schmidt, Robert Kunz, Tim Curwick, Jason A Saslow, SR Foxley, Elliot Beter, Jacob Ash, Christian, Jan Schmid, Jirat, Christy Huddleston, Daniel Baulig, Chris Peters, Anna-Ester Volozh, Ian Dundore, Caleb Weeks
--
Want to find Crash Course elsewhere on the internet?
Facebook - http://www.facebook.com/YouTubeCrashC...
Twitter - http://www.twitter.com/TheCrashCourse
Tumblr - http://thecrashcourse.tumblr.com
Support CrashCourse on Patreon: http://www.patreon.com/crashcourse
CC Kids: http://www.youtube.com/crashcoursekids
https://wn.com/Newton's_Laws_Crash_Course_Physics_5
I'm sure you've heard of Isaac Newton and maybe of some of his laws. Like, that thing about "equal and opposite reactions" and such. But what do his laws mean? And how do they help us understand the world around us? In this episode of Crash Course Physics, Shini talks to us about just that.
***
Produced in collaboration with PBS Digital Studios: http://youtube.com/pbsdigitalstudios
Help PBSDS win a Webby Award by voting here: https://pv.webbyawards.com/2016/online-film-video/video-channels-and-networks/science-education
Crash Course is on Patreon! You can support us directly by signing up at http://www.patreon.com/crashcourse
Thanks to the following Patrons for their generous monthly contributions that help keep Crash Course free for everyone forever:
Mark, Eric Kitchen, Jessica Wode, Jeffrey Thompson, Steve Marshall, Moritz Schmidt, Robert Kunz, Tim Curwick, Jason A Saslow, SR Foxley, Elliot Beter, Jacob Ash, Christian, Jan Schmid, Jirat, Christy Huddleston, Daniel Baulig, Chris Peters, Anna-Ester Volozh, Ian Dundore, Caleb Weeks
--
Want to find Crash Course elsewhere on the internet?
Facebook - http://www.facebook.com/YouTubeCrashC...
Twitter - http://www.twitter.com/TheCrashCourse
Tumblr - http://thecrashcourse.tumblr.com
Support CrashCourse on Patreon: http://www.patreon.com/crashcourse
CC Kids: http://www.youtube.com/crashcoursekids
- published: 28 Apr 2016
- views: 952531
Physics - Adv. Mechanics: Lagrangian Mech. (1 of 25) What is Lagrangian Mechanics?
- Order: Reorder
- Duration: 9:06
- Updated: 30 Mar 2016
- views: 63341
Visit http://ilectureonline.com for more math and science lectures!
In this video I will explain what is, when to use, and why do we need Lagrangian mechanics....
Visit http://ilectureonline.com for more math and science lectures!
In this video I will explain what is, when to use, and why do we need Lagrangian mechanics.
Next video in this series can be seen at:
https://youtu.be/uFnTRJ2be7I
https://wn.com/Physics_Adv._Mechanics_Lagrangian_Mech._(1_Of_25)_What_Is_Lagrangian_Mechanics
Visit http://ilectureonline.com for more math and science lectures!
In this video I will explain what is, when to use, and why do we need Lagrangian mechanics.
Next video in this series can be seen at:
https://youtu.be/uFnTRJ2be7I
- published: 30 Mar 2016
- views: 63341
Dynamics with SymPy Mechanics; SciPy 2013 Presentation
- Order: Reorder
- Duration: 20:43
- Updated: 02 Jul 2013
- views: 3180
Authors: Moore, Jason, University of California at Davis
Track: General
The SymPy Mechanics package was created to automate the derivation of the equations of...
Authors: Moore, Jason, University of California at Davis
Track: General
The SymPy Mechanics package was created to automate the derivation of the equations of motion for rigid body dynamics problems. It has been developed primarily through several Google Summer of Code grants over three years and is capable of deriving Newton's Second Law for non-trivial multi-body systems using a variety of methods: from Newton-Euler, to Lagrange, to Kane. The software provides essential classes based around the concepts of a three dimensional vector in a reference frame which ease the setup and bookkeeping of the tedious kinematics including both kinematic and motion constraints. There are also classes for the automated formulation of the equations of motion based on the bodies and forces in a system. It also includes automated linearization of the resulting non-linear models. The software can be used to solve basic physics problems or very complicated many-body and many-constraint systems all with symbolic results. I will go over the basic software design, demonstrate its use through the API along with several classic physics problems and some not-so-trivial three dimensional multi-body problems.
https://wn.com/Dynamics_With_Sympy_Mechanics_Scipy_2013_Presentation
Authors: Moore, Jason, University of California at Davis
Track: General
The SymPy Mechanics package was created to automate the derivation of the equations of motion for rigid body dynamics problems. It has been developed primarily through several Google Summer of Code grants over three years and is capable of deriving Newton's Second Law for non-trivial multi-body systems using a variety of methods: from Newton-Euler, to Lagrange, to Kane. The software provides essential classes based around the concepts of a three dimensional vector in a reference frame which ease the setup and bookkeeping of the tedious kinematics including both kinematic and motion constraints. There are also classes for the automated formulation of the equations of motion based on the bodies and forces in a system. It also includes automated linearization of the resulting non-linear models. The software can be used to solve basic physics problems or very complicated many-body and many-constraint systems all with symbolic results. I will go over the basic software design, demonstrate its use through the API along with several classic physics problems and some not-so-trivial three dimensional multi-body problems.
- published: 02 Jul 2013
- views: 3180
15. Introduction to Lagrange With Examples
- Order: Reorder
- Duration: 1:21:17
- Updated: 03 Sep 2013
- views: 241499
MIT 2.003SC Engineering Dynamics, Fall 2011
View the complete course: http://ocw.mit.edu/2-003SCF11
Instructor: J. Kim Vandiver
License: Creative Commons BY-NC...
MIT 2.003SC Engineering Dynamics, Fall 2011
View the complete course: http://ocw.mit.edu/2-003SCF11
Instructor: J. Kim Vandiver
License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
https://wn.com/15._Introduction_To_Lagrange_With_Examples
MIT 2.003SC Engineering Dynamics, Fall 2011
View the complete course: http://ocw.mit.edu/2-003SCF11
Instructor: J. Kim Vandiver
License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
- published: 03 Sep 2013
- views: 241499
Physics - Adv. Mechanics: Hamiltonian Mech. (1 of 18) What is Hamiltonian Mechanics?
- Order: Reorder
- Duration: 7:24
- Updated: 14 Apr 2016
- views: 31587
Visit http://ilectureonline.com for more math and science lectures!
In this video I will explain what is Hamiltonian mechanics, how are the equations derived, ...
Visit http://ilectureonline.com for more math and science lectures!
In this video I will explain what is Hamiltonian mechanics, how are the equations derived, how the Hamiltonian equations will simplified into classical mechanics equations.
Next video in this series can be seen at:
https://youtu.be/-VXDbFELld8
https://wn.com/Physics_Adv._Mechanics_Hamiltonian_Mech._(1_Of_18)_What_Is_Hamiltonian_Mechanics
Visit http://ilectureonline.com for more math and science lectures!
In this video I will explain what is Hamiltonian mechanics, how are the equations derived, how the Hamiltonian equations will simplified into classical mechanics equations.
Next video in this series can be seen at:
https://youtu.be/-VXDbFELld8
- published: 14 Apr 2016
- views: 31587
Mechanics: Kinematics and Dynamics | MITx on edX | Course About Video
- Order: Reorder
- Duration: 2:14
- Updated: 06 Oct 2016
- views: 1470
Learn about kinematics and dynamics in this calculus-based physics course.
Take this course free on edX: https://www.edx.org/course/mechanics-kinematics-dynami...
Learn about kinematics and dynamics in this calculus-based physics course.
Take this course free on edX: https://www.edx.org/course/mechanics-kinematics-dynamics-mitx-8-01-1x#!
ABOUT THIS COURSE
Mechanics is the study of the physics of motion and how it relates to applied forces. It lays the foundation of understanding the world around us through the how and why of motion.
This physics course is the first in a series of modules that covers calculus-based mechanics. This module reviews kinematics (the geometrical description of motion) in the context of one-dimensional, multi-dimensional, and circular motion. It also reviews Newton’s laws of motion and examines their application to a wide variety of cases.
This series of modules is based on the MIT subject 8.01: Physics I, required of all MIT undergraduates. The modules are:
Mechanics: Kinematics and Dynamics
Mechanics: Momentum and Energy
Mechanics: Rotational Dynamics
The course image is a picture of an MIT building with the name Newton prominently displayed.
WHAT YOU'LL LEARN
- Kinematics
- Newton’s Laws
- Circular Motion
- Resistive Forces, Constraints, and Massive Ropes
https://wn.com/Mechanics_Kinematics_And_Dynamics_|_Mitx_On_Edx_|_Course_About_Video
Learn about kinematics and dynamics in this calculus-based physics course.
Take this course free on edX: https://www.edx.org/course/mechanics-kinematics-dynamics-mitx-8-01-1x#!
ABOUT THIS COURSE
Mechanics is the study of the physics of motion and how it relates to applied forces. It lays the foundation of understanding the world around us through the how and why of motion.
This physics course is the first in a series of modules that covers calculus-based mechanics. This module reviews kinematics (the geometrical description of motion) in the context of one-dimensional, multi-dimensional, and circular motion. It also reviews Newton’s laws of motion and examines their application to a wide variety of cases.
This series of modules is based on the MIT subject 8.01: Physics I, required of all MIT undergraduates. The modules are:
Mechanics: Kinematics and Dynamics
Mechanics: Momentum and Energy
Mechanics: Rotational Dynamics
The course image is a picture of an MIT building with the name Newton prominently displayed.
WHAT YOU'LL LEARN
- Kinematics
- Newton’s Laws
- Circular Motion
- Resistive Forces, Constraints, and Massive Ropes
- published: 06 Oct 2016
- views: 1470
Physics - Mechanics: Rigid Body Rotation (1 of 10) Basics
- Order: Reorder
- Duration: 4:14
- Updated: 20 May 2014
- views: 70787
Visit http://ilectureonline.com for more math and science lectures!
In this video I will explain the translational, rotational, and combined motion of rigid bo...
Visit http://ilectureonline.com for more math and science lectures!
In this video I will explain the translational, rotational, and combined motion of rigid body rotation.
https://wn.com/Physics_Mechanics_Rigid_Body_Rotation_(1_Of_10)_Basics
Engineering Mechanics-Dynamics 2- Rectilinear Continuous Motion
- Order: Reorder
- Duration: 14:41
- Updated: 29 Mar 2016
- views: 4085
المحاضرة الثانية في شرح مادة الديناميكا
Dynamics lecture (2) Rectilinear Continuous Motion
لينك لبعض المسائل المتعلقة بالدرس
و بالتوفيق
https://drive.google.c...
المحاضرة الثانية في شرح مادة الديناميكا
Dynamics lecture (2) Rectilinear Continuous Motion
لينك لبعض المسائل المتعلقة بالدرس
و بالتوفيق
https://drive.google.com/file/d/0B_Cw...
نسعد بالتواصل معاكم من خلال الصفحة علي الفيس بوك
https://www.facebook.com/EngElSamman
eng.ahmedelsamman@live.com
https://wn.com/Engineering_Mechanics_Dynamics_2_Rectilinear_Continuous_Motion
المحاضرة الثانية في شرح مادة الديناميكا
Dynamics lecture (2) Rectilinear Continuous Motion
لينك لبعض المسائل المتعلقة بالدرس
و بالتوفيق
https://drive.google.com/file/d/0B_Cw...
نسعد بالتواصل معاكم من خلال الصفحة علي الفيس بوك
https://www.facebook.com/EngElSamman
eng.ahmedelsamman@live.com
- published: 29 Mar 2016
- views: 4085
Mechanics 1 - M1 - Dynamics of a Particle (1) Brief Intro - Newtons 2nd Law N2L
- Order: Reorder
- Duration: 48:23
- Updated: 25 Aug 2013
- views: 22577
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist lear...
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist learning in UK classrooms.
Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
https://wn.com/Mechanics_1_M1_Dynamics_Of_A_Particle_(1)_Brief_Intro_Newtons_2Nd_Law_N2L
Julie Theriot (Stanford, HHMI) 2: Mechanics and Dynamics of Rapid Cell Motility
- Order: Reorder
- Duration: 37:20
- Updated: 29 Mar 2016
- views: 7589
http://www.ibiology.org/ibioseminars/cell-biology/julie-theriot-part-2.html
In Part 1 of her talk, Dr. Theriot explains how tiny, nanometer sized actin molecul...
http://www.ibiology.org/ibioseminars/cell-biology/julie-theriot-part-2.html
In Part 1 of her talk, Dr. Theriot explains how tiny, nanometer sized actin molecules can self-assemble into filaments that are hundreds of microns in length. These actin filaments are constantly growing and shrinking and this dynamic behavior allows a network of actin to generate enough force to move a cell forward. The intracellular bacterial pathogen Listeria monocytogenes uses actin polymerization to propel itself through the cytoplasm and to invade other cells. Many years of studies using Listeria have allowed Theriot and others to dissect the regulation of actin network growth in Listeria “comet tails” and at the leading edge of crawling cells.
In her second lecture, Theriot explains that fish keratocytes are an excellent system to study rapid cell motility. By labeling actin and myosin in keratocytes, Theriot and her colleagues were able to follow turnover of actin in the lamellipodium. Unexpectedly, they found that myosin II plays in important role in actin disassembly at the rear of the cell and asymmetric localization of myosin at the back of the cell appears to govern cell turning. Similar mechanisms of actin and myosin cooperation seem to drive rapid movement in both fish keratinocytes and human neutrophils.
It has been known since the early 1990s that bacteria have homologues of both actin and tubulin. In general, however, bacteria are much simpler than eukaryotes. In her final lecture, Theriot speculates about the factors that have evolved to allow eukaryotes to modify their cytoskeletons and build bigger, morphologically complex, multicellular organisms.
Speaker Biography:
Julie Theriot attended college at the Massachusetts Institute of Technology, graduating with degrees in Physics and Biology. She pursued graduate training at the University of California, San Francisco, earning her Ph.D. in Cell Biology in 1993. After four years as a Fellow at the Whitehead Institute for Biomedical Research, Theriot moved to Stanford University School of Medicine where she is currently a Professor of Biochemistry and of Microbiology and Immunology. Since 2008, Theriot has also been an Investigator of the Howard Hughes Medical Institute.
Theriot's research focuses on how interactions at the molecular level determine cell behavior, in particular, how cells change their shape or direction of movement. Theriot has received numerous awards for her work including fellowships from both the David and Lucile Packard Foundation and the John D. and Catherine T. MacArthur Foundation. She has also been recognized for her exceptional teaching.
https://wn.com/Julie_Theriot_(Stanford,_Hhmi)_2_Mechanics_And_Dynamics_Of_Rapid_Cell_Motility
http://www.ibiology.org/ibioseminars/cell-biology/julie-theriot-part-2.html
In Part 1 of her talk, Dr. Theriot explains how tiny, nanometer sized actin molecules can self-assemble into filaments that are hundreds of microns in length. These actin filaments are constantly growing and shrinking and this dynamic behavior allows a network of actin to generate enough force to move a cell forward. The intracellular bacterial pathogen Listeria monocytogenes uses actin polymerization to propel itself through the cytoplasm and to invade other cells. Many years of studies using Listeria have allowed Theriot and others to dissect the regulation of actin network growth in Listeria “comet tails” and at the leading edge of crawling cells.
In her second lecture, Theriot explains that fish keratocytes are an excellent system to study rapid cell motility. By labeling actin and myosin in keratocytes, Theriot and her colleagues were able to follow turnover of actin in the lamellipodium. Unexpectedly, they found that myosin II plays in important role in actin disassembly at the rear of the cell and asymmetric localization of myosin at the back of the cell appears to govern cell turning. Similar mechanisms of actin and myosin cooperation seem to drive rapid movement in both fish keratinocytes and human neutrophils.
It has been known since the early 1990s that bacteria have homologues of both actin and tubulin. In general, however, bacteria are much simpler than eukaryotes. In her final lecture, Theriot speculates about the factors that have evolved to allow eukaryotes to modify their cytoskeletons and build bigger, morphologically complex, multicellular organisms.
Speaker Biography:
Julie Theriot attended college at the Massachusetts Institute of Technology, graduating with degrees in Physics and Biology. She pursued graduate training at the University of California, San Francisco, earning her Ph.D. in Cell Biology in 1993. After four years as a Fellow at the Whitehead Institute for Biomedical Research, Theriot moved to Stanford University School of Medicine where she is currently a Professor of Biochemistry and of Microbiology and Immunology. Since 2008, Theriot has also been an Investigator of the Howard Hughes Medical Institute.
Theriot's research focuses on how interactions at the molecular level determine cell behavior, in particular, how cells change their shape or direction of movement. Theriot has received numerous awards for her work including fellowships from both the David and Lucile Packard Foundation and the John D. and Catherine T. MacArthur Foundation. She has also been recognized for her exceptional teaching.
- published: 29 Mar 2016
- views: 7589
D' Alemberts Principle | Dynamics | Engineering Mechanics
- Order: Reorder
- Duration: 19:54
- Updated: 14 Dec 2017
- views: 795
Contents:
1. Newtons Second Law of Motion
2. D Alemberts Principle
3. Application of Newtons Second Law of Motion
4. Application of D Alemberts Principle
5. Com...
Contents:
1. Newtons Second Law of Motion
2. D Alemberts Principle
3. Application of Newtons Second Law of Motion
4. Application of D Alemberts Principle
5. Comparison of both.
https://wn.com/D'_Alemberts_Principle_|_Dynamics_|_Engineering_Mechanics
Contents:
1. Newtons Second Law of Motion
2. D Alemberts Principle
3. Application of Newtons Second Law of Motion
4. Application of D Alemberts Principle
5. Comparison of both.
- published: 14 Dec 2017
- views: 795
1. Course Introduction and Newtonian Mechanics
- Order: Reorder
- Duration: 1:13:21
- Updated: 22 Sep 2008
- views: 669882
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, ...
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu.
Fundamentals of Physics (PHYS 200)
Professor Shankar introduces the course and answers student questions about the material and the requirements. He gives an overview of Newtonian mechanics and explains its two components: kinematics and dynamics. He then reviews basic concepts in calculus through two key equations: x = x0 + v0t + ½ at2 and v2 = v02+ 2 a (x-x0), tracing the fate of a particle in one dimension along the x-axis.
00:00 - Chapter 1. Introduction and Course Organization
21:25 - Chapter 2. Newtonian Mechanics: Dynamics and Kinematics
28:20 - Chapter 3. Average and Instantaneous Rate of Motion
37:56 - Chapter 4. Motion at Constant Acceleration
52:37 - Chapter 5. Example Problem: Physical Meaning of Equations
01:08:42 - Chapter 6. Derive New Relations Using Calculus Laws of Limits
Complete course materials are available at the Yale Online website: online.yale.edu
This course was recorded in Fall 2006.
https://wn.com/1._Course_Introduction_And_Newtonian_Mechanics
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu.
Fundamentals of Physics (PHYS 200)
Professor Shankar introduces the course and answers student questions about the material and the requirements. He gives an overview of Newtonian mechanics and explains its two components: kinematics and dynamics. He then reviews basic concepts in calculus through two key equations: x = x0 + v0t + ½ at2 and v2 = v02+ 2 a (x-x0), tracing the fate of a particle in one dimension along the x-axis.
00:00 - Chapter 1. Introduction and Course Organization
21:25 - Chapter 2. Newtonian Mechanics: Dynamics and Kinematics
28:20 - Chapter 3. Average and Instantaneous Rate of Motion
37:56 - Chapter 4. Motion at Constant Acceleration
52:37 - Chapter 5. Example Problem: Physical Meaning of Equations
01:08:42 - Chapter 6. Derive New Relations Using Calculus Laws of Limits
Complete course materials are available at the Yale Online website: online.yale.edu
This course was recorded in Fall 2006.
- published: 22 Sep 2008
- views: 669882
I Love Math ❤︎ | Engineering Mechanics Dynamics Course - Introduction
- Order: Reorder
- Duration: 1:42
- Updated: 22 Jan 2016
- views: 751
-
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist learning in UK classrooms. Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
published: 25 Aug 2013 -
-
System Dynamics and Control: Module 4 - Modeling Mechanical Systems
Introduction to modeling mechanical systems from first principles. In particular, systems with inertia, stiffness, and damping are modeled by applying Newton's 2nd Law. Translational and rotational systems are discussed.
published: 18 Aug 2013 -
Julie Theriot (Stanford, HHMI) 2: Mechanics and Dynamics of Rapid Cell Motility
http://www.ibiology.org/ibioseminars/cell-biology/julie-theriot-part-2.html In Part 1 of her talk, Dr. Theriot explains how tiny, nanometer sized actin molecules can self-assemble into filaments that are hundreds of microns in length. These actin filaments are constantly growing and shrinking and this dynamic behavior allows a network of actin to generate enough force to move a cell forward. The intracellular bacterial pathogen Listeria monocytogenes uses actin polymerization to propel itself through the cytoplasm and to invade other cells. Many years of studies using Listeria have allowed Theriot and others to dissect the regulation of actin network growth in Listeria “comet tails” and at the leading edge of crawling cells. In her second lecture, Theriot explains that fish keratocyte...
published: 29 Mar 2016 -
Mechanics 1 - M1 - Dynamics of a Particle (1) Brief Intro - Newtons 2nd Law N2L
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist learning in UK classrooms. Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
published: 25 Aug 2013 -
15. Introduction to Lagrange With Examples
MIT 2.003SC Engineering Dynamics, Fall 2011 View the complete course: http://ocw.mit.edu/2-003SCF11 Instructor: J. Kim Vandiver License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
published: 03 Sep 2013 -
Classical Mechanics - A Level Physics
A Level Physics revision: Classical mechanics - covering Newton's Laws, velocity, acceleration, force, energy, momentum, impulse, moments and torques.
published: 03 Mar 2012 -
Dynamics with SymPy Mechanics; SciPy 2013 Presentation
Authors: Moore, Jason, University of California at Davis Track: General The SymPy Mechanics package was created to automate the derivation of the equations of motion for rigid body dynamics problems. It has been developed primarily through several Google Summer of Code grants over three years and is capable of deriving Newton's Second Law for non-trivial multi-body systems using a variety of methods: from Newton-Euler, to Lagrange, to Kane. The software provides essential classes based around the concepts of a three dimensional vector in a reference frame which ease the setup and bookkeeping of the tedious kinematics including both kinematic and motion constraints. There are also classes for the automated formulation of the equations of motion based on the bodies and forces in a system. ...
published: 02 Jul 2013 -
Symplectic Dynamics of Integrable Hamiltonian Systems - Alvaro Pelayo
Alvaro Pelayo Member, School of Mathematics April 4, 2011 I will start with a review the basic notions of Hamiltonian/symplectic vector field and of Hamiltonian/symplectic group action, and the classical structure theorems of Kostant, Atiyah, Guillemin-Sternberg and Delzant on Hamiltonian torus actions. Then I will state a structure theorem for general symplectic torus actions, and give an idea of its proof. In the second part of the talk I will introduce new symplectic invariants of completely integrable Hamiltonian systems in low dimensions, and explain how these invariants determine, up to isomorphisms, the so called "semitoric systems". Semitoric systems are Hamiltonian systems which lie somewhere between the more rigid toric systems and the usually complicated general integrable syste...
published: 25 Aug 2016 -
1. Course Introduction and Newtonian Mechanics
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu. Fundamentals of Physics (PHYS 200) Professor Shankar introduces the course and answers student questions about the material and the requirements. He gives an overview of Newtonian mechanics and explains its two components: kinematics and dynamics. He then reviews basic concepts in calculus through two key equations: x = x0 + v0t + ½ at2 and v2 = v02+ 2 a (x-x0), tracing the fate of a particle in one dimension along the x-axis. 00:00 - Chapter 1. Introduction and Course Organization 21:25 - Chapter 2. Newtonian Mechanics: Dynamics and Kinematics 28:20 - Chapter 3. Average and Instantaneous Rate of Moti...
published: 22 Sep 2008 -
9. Rotations, Part I: Dynamics of Rigid Bodies
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu. Fundamentals of Physics (PHYS 200) Part I of Rotations. The lecture begins with examining rotation of rigid bodies in two dimensions. The concepts of "rotation" and "translation" are explained. The use of radians is introduced. Angular velocity, angular momentum, angular acceleration, torque and inertia are also discussed. Finally, the Parallel Axis Theorem is expounded. 00:00 - Chapter 1. Introduction to Rigid Bodies; Rotation of Rigid Bodies 08:15 - Chapter 2. Rotation in Terms of Circle Parameters and Radian 19:57 - Chapter 3. Radial and Tangential Rotation at Constant Acceleration 28:34 - Chapter ...
published: 22 Sep 2008 -
Mod-01 Lec-06 Tire Mechanics – An Introduction
Vehicle Dynamics by Dr.R.Krishnakumar,Department of Engineering Design,IIT Madras.For more details on NPTEL visit http://nptel.ac.in
published: 30 Jul 2014 -
AE372 - Flight Mechanics - Lecture 1.2 [Review of System Dynamics]
Instructor: Assoc.Prof. Dr. Ilkay Yavrucuk For Lecture Notes: http://ocw.metu.edu.tr/course/view.php?id=261 & http://ae.metu.edu.tr/~ilkay/ Middle East Technical University OpenCourseWare: [ http://ocw.metu.edu.tr ] Youtube Channel: [ http://www.youtube.com/METUOpenCourseWare ]
published: 10 Mar 2017 -
AE372 - Flight Mechanics - Lecture 1.1 [Course Intro - Review of System Dynamics]
Instructor: Assoc.Prof. Dr. Ilkay Yavrucuk For Lecture Notes: http://ocw.metu.edu.tr/course/view.php?id=261 & http://ae.metu.edu.tr/~ilkay/ Middle East Technical University OpenCourseWare: [ http://ocw.metu.edu.tr ] Youtube Channel: [ http://www.youtube.com/METUOpenCourseWare ]
published: 10 Mar 2017 -
M1 Mechanics - Car and Trailer - Connected Particles (M1 Mechanics AQA Edexcel Dynamics)
All videos can be found at www.m4ths.com and www.astarmaths.com These videos were donated to the channel by Steve Blades of maths247 'fame'. Please share via twitter or facebook if you find them helpful. Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
published: 05 Apr 2014 -
Mod-01 Lec-10 Hamiltonian dynamics (Part 1)
Lecture Series on Classical Physics by Prof.V.Balakrishnan, Department of Physics, IIT Madras. For more details on NPTEL visit http://nptel.iitm.ac.in
published: 15 May 2009 -
Verbal lesson (Mid lane dynamics/mechanics/path to pro)
If you would like to contact me about coaching, email me at christyfri17@gmail.com -- Watch live at https://www.twitch.tv/theenderl
published: 19 Sep 2016 -
Lec 06: Newton's First, Second, and Third Laws | 8.01 Classical Mechanics, Fall 1999 (Walter Lewin)
This lecture is all about Newton's First (inertia), Second (F=ma) and Third (action=-reaction) Laws. This lecture is part of 8.01 Physics I: Classical Mechanics, as taught in Fall 1999 by Dr. Walter Lewin at MIT. This video was formerly hosted on the YouTube channel MIT OpenCourseWare. This version was downloaded from the Internet Archive, at https://archive.org/details/MIT8.01F99/. Attribution: MIT OpenCourseWare License: Creative Commons BY-NC-SA 3.0 US To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/us/. More information at http://ocw.mit.edu/terms/. This YouTube channel is independently operated. It is not affiliated with MIT, MIT OpenCourseWare, the Internet Archive, or Dr. Lewin, nor do they endorse any content on this channel.
published: 10 Dec 2014 -
20. Fluid Dynamics and Statics and Bernoulli's Equation
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu. Fundamentals of Physics (PHYS 200) The focus of the lecture is on fluid dynamics and statics. Different properties are discussed, such as density and pressure. Archimedes' Principle is introduced and demonstrated through a number of problems. The final topic of the lecture is Bernoulli's Equation. 00:00 - Chapter 1. Introduction to Fluid Dynamics and Statics — The Notion of Pressure 04:14 - Chapter 2. Fluid Pressure as a Function of Height 20:49 - Chapter 3. The Hydraulic Press 26:32 - Chapter 4. Archimedes' Principle 36:36 - Chapter 5. Bernoulli's Equation 39:12 - Chapter 6. The Equation of Continuit...
published: 23 Sep 2008 -
Kinematics of Rigid Bodies - Engineering Mechanics - First Year Engineering
Video Lecture on Kinematics of Rigid Bodies from Kinematics of Particles chapter of Engineering Mechanics for first year Diploma & Engineering Degree. To Access Complete Course of Engineering Mechanics Click here:- http://www.ekeeda.com/course/SEM-I/Mumbai-University/Computer-Engineering/Engineering-Mechanics/144 Watch Previous Videos of Chapter Review of Kinematics of Particles :- 1)Motion Diagram - Problem 5 - Kinematics of Particles - Engineering Mechanics - First Year Engineering-https://youtu.be/Wy9v5jJp81c 2)Motion Diagram - Problem 4 - Kinematics of Particles - Engineering Mechanics - First Year Engineering-https://youtu.be/nxC2icFnY0Q Watch Next Videos of Chapter Review of Kinematics of Particles :- 1)Kinematics of Rigid Bodies- Problem 1 - Engineering Mechanics - First Yea...
published: 22 Aug 2016
developed with YouTube
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
- Order: Reorder
- Duration: 51:04
- Updated: 25 Aug 2013
- views: 37082
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist lear...
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist learning in UK classrooms.
Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
https://wn.com/Mechanics_1_M1_Dynamics_Of_A_Particle_(1)_Inclined_Planes_Basic_Intro
FE Exam Review: Statics, Dynamics, Mechanics of Deformable Bodies (2016.11.07)
- Order: Reorder
- Duration: 2:08:35
- Updated: 08 Nov 2016
- views: 27910
System Dynamics and Control: Module 4 - Modeling Mechanical Systems
- Order: Reorder
- Duration: 1:09:04
- Updated: 18 Aug 2013
- views: 101602
Introduction to modeling mechanical systems from first principles. In particular, systems with inertia, stiffness, and damping are modeled by applying Newton's ...
Introduction to modeling mechanical systems from first principles. In particular, systems with inertia, stiffness, and damping are modeled by applying Newton's 2nd Law. Translational and rotational systems are discussed.
https://wn.com/System_Dynamics_And_Control_Module_4_Modeling_Mechanical_Systems
Introduction to modeling mechanical systems from first principles. In particular, systems with inertia, stiffness, and damping are modeled by applying Newton's 2nd Law. Translational and rotational systems are discussed.
- published: 18 Aug 2013
- views: 101602
Julie Theriot (Stanford, HHMI) 2: Mechanics and Dynamics of Rapid Cell Motility
- Order: Reorder
- Duration: 37:20
- Updated: 29 Mar 2016
- views: 7589
http://www.ibiology.org/ibioseminars/cell-biology/julie-theriot-part-2.html
In Part 1 of her talk, Dr. Theriot explains how tiny, nanometer sized actin molecul...
http://www.ibiology.org/ibioseminars/cell-biology/julie-theriot-part-2.html
In Part 1 of her talk, Dr. Theriot explains how tiny, nanometer sized actin molecules can self-assemble into filaments that are hundreds of microns in length. These actin filaments are constantly growing and shrinking and this dynamic behavior allows a network of actin to generate enough force to move a cell forward. The intracellular bacterial pathogen Listeria monocytogenes uses actin polymerization to propel itself through the cytoplasm and to invade other cells. Many years of studies using Listeria have allowed Theriot and others to dissect the regulation of actin network growth in Listeria “comet tails” and at the leading edge of crawling cells.
In her second lecture, Theriot explains that fish keratocytes are an excellent system to study rapid cell motility. By labeling actin and myosin in keratocytes, Theriot and her colleagues were able to follow turnover of actin in the lamellipodium. Unexpectedly, they found that myosin II plays in important role in actin disassembly at the rear of the cell and asymmetric localization of myosin at the back of the cell appears to govern cell turning. Similar mechanisms of actin and myosin cooperation seem to drive rapid movement in both fish keratinocytes and human neutrophils.
It has been known since the early 1990s that bacteria have homologues of both actin and tubulin. In general, however, bacteria are much simpler than eukaryotes. In her final lecture, Theriot speculates about the factors that have evolved to allow eukaryotes to modify their cytoskeletons and build bigger, morphologically complex, multicellular organisms.
Speaker Biography:
Julie Theriot attended college at the Massachusetts Institute of Technology, graduating with degrees in Physics and Biology. She pursued graduate training at the University of California, San Francisco, earning her Ph.D. in Cell Biology in 1993. After four years as a Fellow at the Whitehead Institute for Biomedical Research, Theriot moved to Stanford University School of Medicine where she is currently a Professor of Biochemistry and of Microbiology and Immunology. Since 2008, Theriot has also been an Investigator of the Howard Hughes Medical Institute.
Theriot's research focuses on how interactions at the molecular level determine cell behavior, in particular, how cells change their shape or direction of movement. Theriot has received numerous awards for her work including fellowships from both the David and Lucile Packard Foundation and the John D. and Catherine T. MacArthur Foundation. She has also been recognized for her exceptional teaching.
https://wn.com/Julie_Theriot_(Stanford,_Hhmi)_2_Mechanics_And_Dynamics_Of_Rapid_Cell_Motility
http://www.ibiology.org/ibioseminars/cell-biology/julie-theriot-part-2.html
In Part 1 of her talk, Dr. Theriot explains how tiny, nanometer sized actin molecules can self-assemble into filaments that are hundreds of microns in length. These actin filaments are constantly growing and shrinking and this dynamic behavior allows a network of actin to generate enough force to move a cell forward. The intracellular bacterial pathogen Listeria monocytogenes uses actin polymerization to propel itself through the cytoplasm and to invade other cells. Many years of studies using Listeria have allowed Theriot and others to dissect the regulation of actin network growth in Listeria “comet tails” and at the leading edge of crawling cells.
In her second lecture, Theriot explains that fish keratocytes are an excellent system to study rapid cell motility. By labeling actin and myosin in keratocytes, Theriot and her colleagues were able to follow turnover of actin in the lamellipodium. Unexpectedly, they found that myosin II plays in important role in actin disassembly at the rear of the cell and asymmetric localization of myosin at the back of the cell appears to govern cell turning. Similar mechanisms of actin and myosin cooperation seem to drive rapid movement in both fish keratinocytes and human neutrophils.
It has been known since the early 1990s that bacteria have homologues of both actin and tubulin. In general, however, bacteria are much simpler than eukaryotes. In her final lecture, Theriot speculates about the factors that have evolved to allow eukaryotes to modify their cytoskeletons and build bigger, morphologically complex, multicellular organisms.
Speaker Biography:
Julie Theriot attended college at the Massachusetts Institute of Technology, graduating with degrees in Physics and Biology. She pursued graduate training at the University of California, San Francisco, earning her Ph.D. in Cell Biology in 1993. After four years as a Fellow at the Whitehead Institute for Biomedical Research, Theriot moved to Stanford University School of Medicine where she is currently a Professor of Biochemistry and of Microbiology and Immunology. Since 2008, Theriot has also been an Investigator of the Howard Hughes Medical Institute.
Theriot's research focuses on how interactions at the molecular level determine cell behavior, in particular, how cells change their shape or direction of movement. Theriot has received numerous awards for her work including fellowships from both the David and Lucile Packard Foundation and the John D. and Catherine T. MacArthur Foundation. She has also been recognized for her exceptional teaching.
- published: 29 Mar 2016
- views: 7589
Mechanics 1 - M1 - Dynamics of a Particle (1) Brief Intro - Newtons 2nd Law N2L
- Order: Reorder
- Duration: 48:23
- Updated: 25 Aug 2013
- views: 22577
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist lear...
This channel is managed by up and coming UK maths teachers. Videos designed for the site by Steve Blades, retired Youtuber and owner of m4ths.com to assist learning in UK classrooms.
Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
https://wn.com/Mechanics_1_M1_Dynamics_Of_A_Particle_(1)_Brief_Intro_Newtons_2Nd_Law_N2L
15. Introduction to Lagrange With Examples
- Order: Reorder
- Duration: 1:21:17
- Updated: 03 Sep 2013
- views: 241499
MIT 2.003SC Engineering Dynamics, Fall 2011
View the complete course: http://ocw.mit.edu/2-003SCF11
Instructor: J. Kim Vandiver
License: Creative Commons BY-NC...
MIT 2.003SC Engineering Dynamics, Fall 2011
View the complete course: http://ocw.mit.edu/2-003SCF11
Instructor: J. Kim Vandiver
License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
https://wn.com/15._Introduction_To_Lagrange_With_Examples
MIT 2.003SC Engineering Dynamics, Fall 2011
View the complete course: http://ocw.mit.edu/2-003SCF11
Instructor: J. Kim Vandiver
License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
- published: 03 Sep 2013
- views: 241499
Classical Mechanics - A Level Physics
- Order: Reorder
- Duration: 28:55
- Updated: 03 Mar 2012
- views: 420027
A Level Physics revision: Classical mechanics - covering Newton's Laws, velocity, acceleration, force, energy, momentum, impulse, moments and torques.
A Level Physics revision: Classical mechanics - covering Newton's Laws, velocity, acceleration, force, energy, momentum, impulse, moments and torques.
https://wn.com/Classical_Mechanics_A_Level_Physics
A Level Physics revision: Classical mechanics - covering Newton's Laws, velocity, acceleration, force, energy, momentum, impulse, moments and torques.
- published: 03 Mar 2012
- views: 420027
Dynamics with SymPy Mechanics; SciPy 2013 Presentation
- Order: Reorder
- Duration: 20:43
- Updated: 02 Jul 2013
- views: 3180
Authors: Moore, Jason, University of California at Davis
Track: General
The SymPy Mechanics package was created to automate the derivation of the equations of...
Authors: Moore, Jason, University of California at Davis
Track: General
The SymPy Mechanics package was created to automate the derivation of the equations of motion for rigid body dynamics problems. It has been developed primarily through several Google Summer of Code grants over three years and is capable of deriving Newton's Second Law for non-trivial multi-body systems using a variety of methods: from Newton-Euler, to Lagrange, to Kane. The software provides essential classes based around the concepts of a three dimensional vector in a reference frame which ease the setup and bookkeeping of the tedious kinematics including both kinematic and motion constraints. There are also classes for the automated formulation of the equations of motion based on the bodies and forces in a system. It also includes automated linearization of the resulting non-linear models. The software can be used to solve basic physics problems or very complicated many-body and many-constraint systems all with symbolic results. I will go over the basic software design, demonstrate its use through the API along with several classic physics problems and some not-so-trivial three dimensional multi-body problems.
https://wn.com/Dynamics_With_Sympy_Mechanics_Scipy_2013_Presentation
Authors: Moore, Jason, University of California at Davis
Track: General
The SymPy Mechanics package was created to automate the derivation of the equations of motion for rigid body dynamics problems. It has been developed primarily through several Google Summer of Code grants over three years and is capable of deriving Newton's Second Law for non-trivial multi-body systems using a variety of methods: from Newton-Euler, to Lagrange, to Kane. The software provides essential classes based around the concepts of a three dimensional vector in a reference frame which ease the setup and bookkeeping of the tedious kinematics including both kinematic and motion constraints. There are also classes for the automated formulation of the equations of motion based on the bodies and forces in a system. It also includes automated linearization of the resulting non-linear models. The software can be used to solve basic physics problems or very complicated many-body and many-constraint systems all with symbolic results. I will go over the basic software design, demonstrate its use through the API along with several classic physics problems and some not-so-trivial three dimensional multi-body problems.
- published: 02 Jul 2013
- views: 3180
Symplectic Dynamics of Integrable Hamiltonian Systems - Alvaro Pelayo
- Order: Reorder
- Duration: 56:39
- Updated: 25 Aug 2016
- views: 658
Alvaro Pelayo
Member, School of Mathematics
April 4, 2011
I will start with a review the basic notions of Hamiltonian/symplectic vector field and of Hamiltonian...
Alvaro Pelayo
Member, School of Mathematics
April 4, 2011
I will start with a review the basic notions of Hamiltonian/symplectic vector field and of Hamiltonian/symplectic group action, and the classical structure theorems of Kostant, Atiyah, Guillemin-Sternberg and Delzant on Hamiltonian torus actions. Then I will state a structure theorem for general symplectic torus actions, and give an idea of its proof. In the second part of the talk I will introduce new symplectic invariants of completely integrable Hamiltonian systems in low dimensions, and explain how these invariants determine, up to isomorphisms, the so called "semitoric systems". Semitoric systems are Hamiltonian systems which lie somewhere between the more rigid toric systems and the usually complicated general integrable systems. Semitoric systems form a fundamental class of integrable systems, commonly found in simple physical models such as the coupled spin-oscillator, the Lagrange top and the spherical pendulum. I will conclude with some remarks on the spectral theory of quantum integrable systems. Parts of this talk are based on joint work with with Johannes J. Duistermaat and San Vu Ngoc.
For more videos, visit http://video.ias.edu
https://wn.com/Symplectic_Dynamics_Of_Integrable_Hamiltonian_Systems_Alvaro_Pelayo
Alvaro Pelayo
Member, School of Mathematics
April 4, 2011
I will start with a review the basic notions of Hamiltonian/symplectic vector field and of Hamiltonian/symplectic group action, and the classical structure theorems of Kostant, Atiyah, Guillemin-Sternberg and Delzant on Hamiltonian torus actions. Then I will state a structure theorem for general symplectic torus actions, and give an idea of its proof. In the second part of the talk I will introduce new symplectic invariants of completely integrable Hamiltonian systems in low dimensions, and explain how these invariants determine, up to isomorphisms, the so called "semitoric systems". Semitoric systems are Hamiltonian systems which lie somewhere between the more rigid toric systems and the usually complicated general integrable systems. Semitoric systems form a fundamental class of integrable systems, commonly found in simple physical models such as the coupled spin-oscillator, the Lagrange top and the spherical pendulum. I will conclude with some remarks on the spectral theory of quantum integrable systems. Parts of this talk are based on joint work with with Johannes J. Duistermaat and San Vu Ngoc.
For more videos, visit http://video.ias.edu
- published: 25 Aug 2016
- views: 658
1. Course Introduction and Newtonian Mechanics
- Order: Reorder
- Duration: 1:13:21
- Updated: 22 Sep 2008
- views: 669882
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, ...
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu.
Fundamentals of Physics (PHYS 200)
Professor Shankar introduces the course and answers student questions about the material and the requirements. He gives an overview of Newtonian mechanics and explains its two components: kinematics and dynamics. He then reviews basic concepts in calculus through two key equations: x = x0 + v0t + ½ at2 and v2 = v02+ 2 a (x-x0), tracing the fate of a particle in one dimension along the x-axis.
00:00 - Chapter 1. Introduction and Course Organization
21:25 - Chapter 2. Newtonian Mechanics: Dynamics and Kinematics
28:20 - Chapter 3. Average and Instantaneous Rate of Motion
37:56 - Chapter 4. Motion at Constant Acceleration
52:37 - Chapter 5. Example Problem: Physical Meaning of Equations
01:08:42 - Chapter 6. Derive New Relations Using Calculus Laws of Limits
Complete course materials are available at the Yale Online website: online.yale.edu
This course was recorded in Fall 2006.
https://wn.com/1._Course_Introduction_And_Newtonian_Mechanics
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu.
Fundamentals of Physics (PHYS 200)
Professor Shankar introduces the course and answers student questions about the material and the requirements. He gives an overview of Newtonian mechanics and explains its two components: kinematics and dynamics. He then reviews basic concepts in calculus through two key equations: x = x0 + v0t + ½ at2 and v2 = v02+ 2 a (x-x0), tracing the fate of a particle in one dimension along the x-axis.
00:00 - Chapter 1. Introduction and Course Organization
21:25 - Chapter 2. Newtonian Mechanics: Dynamics and Kinematics
28:20 - Chapter 3. Average and Instantaneous Rate of Motion
37:56 - Chapter 4. Motion at Constant Acceleration
52:37 - Chapter 5. Example Problem: Physical Meaning of Equations
01:08:42 - Chapter 6. Derive New Relations Using Calculus Laws of Limits
Complete course materials are available at the Yale Online website: online.yale.edu
This course was recorded in Fall 2006.
- published: 22 Sep 2008
- views: 669882
9. Rotations, Part I: Dynamics of Rigid Bodies
- Order: Reorder
- Duration: 1:13:51
- Updated: 22 Sep 2008
- views: 149053
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, ...
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu.
Fundamentals of Physics (PHYS 200)
Part I of Rotations. The lecture begins with examining rotation of rigid bodies in two dimensions. The concepts of "rotation" and "translation" are explained. The use of radians is introduced. Angular velocity, angular momentum, angular acceleration, torque and inertia are also discussed. Finally, the Parallel Axis Theorem is expounded.
00:00 - Chapter 1. Introduction to Rigid Bodies; Rotation of Rigid Bodies
08:15 - Chapter 2. Rotation in Terms of Circle Parameters and Radian
19:57 - Chapter 3. Radial and Tangential Rotation at Constant Acceleration
28:34 - Chapter 4. Moment of Inertia, Angular Momentum, Kinetic Energy
46:47 - Chapter 5. Torque and Work Energy Theorem
01:01:36 - Chapter 6. Calculate Moment of Inertia: Examples for Rod, Disk, etc.
Complete course materials are available at the Yale Online website: online.yale.edu
This course was recorded in Fall 2006.
https://wn.com/9._Rotations,_Part_I_Dynamics_Of_Rigid_Bodies
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu.
Fundamentals of Physics (PHYS 200)
Part I of Rotations. The lecture begins with examining rotation of rigid bodies in two dimensions. The concepts of "rotation" and "translation" are explained. The use of radians is introduced. Angular velocity, angular momentum, angular acceleration, torque and inertia are also discussed. Finally, the Parallel Axis Theorem is expounded.
00:00 - Chapter 1. Introduction to Rigid Bodies; Rotation of Rigid Bodies
08:15 - Chapter 2. Rotation in Terms of Circle Parameters and Radian
19:57 - Chapter 3. Radial and Tangential Rotation at Constant Acceleration
28:34 - Chapter 4. Moment of Inertia, Angular Momentum, Kinetic Energy
46:47 - Chapter 5. Torque and Work Energy Theorem
01:01:36 - Chapter 6. Calculate Moment of Inertia: Examples for Rod, Disk, etc.
Complete course materials are available at the Yale Online website: online.yale.edu
This course was recorded in Fall 2006.
- published: 22 Sep 2008
- views: 149053
Mod-01 Lec-06 Tire Mechanics – An Introduction
- Order: Reorder
- Duration: 48:44
- Updated: 30 Jul 2014
- views: 19273
Vehicle Dynamics by Dr.R.Krishnakumar,Department of Engineering Design,IIT Madras.For more details on NPTEL visit http://nptel.ac.in
Vehicle Dynamics by Dr.R.Krishnakumar,Department of Engineering Design,IIT Madras.For more details on NPTEL visit http://nptel.ac.in
https://wn.com/Mod_01_Lec_06_Tire_Mechanics_–_An_Introduction
Vehicle Dynamics by Dr.R.Krishnakumar,Department of Engineering Design,IIT Madras.For more details on NPTEL visit http://nptel.ac.in
- published: 30 Jul 2014
- views: 19273
AE372 - Flight Mechanics - Lecture 1.2 [Review of System Dynamics]
- Order: Reorder
- Duration: 41:05
- Updated: 10 Mar 2017
- views: 845
Instructor: Assoc.Prof. Dr. Ilkay Yavrucuk
For Lecture Notes: http://ocw.metu.edu.tr/course/view.php?id=261 & http://ae.metu.edu.tr/~ilkay/
Middle East Techni...
Instructor: Assoc.Prof. Dr. Ilkay Yavrucuk
For Lecture Notes: http://ocw.metu.edu.tr/course/view.php?id=261 & http://ae.metu.edu.tr/~ilkay/
Middle East Technical University
OpenCourseWare: [ http://ocw.metu.edu.tr ]
Youtube Channel: [ http://www.youtube.com/METUOpenCourseWare ]
https://wn.com/Ae372_Flight_Mechanics_Lecture_1.2_Review_Of_System_Dynamics
Instructor: Assoc.Prof. Dr. Ilkay Yavrucuk
For Lecture Notes: http://ocw.metu.edu.tr/course/view.php?id=261 & http://ae.metu.edu.tr/~ilkay/
Middle East Technical University
OpenCourseWare: [ http://ocw.metu.edu.tr ]
Youtube Channel: [ http://www.youtube.com/METUOpenCourseWare ]
- published: 10 Mar 2017
- views: 845
AE372 - Flight Mechanics - Lecture 1.1 [Course Intro - Review of System Dynamics]
- Order: Reorder
- Duration: 46:33
- Updated: 10 Mar 2017
- views: 3557
Instructor: Assoc.Prof. Dr. Ilkay Yavrucuk
For Lecture Notes: http://ocw.metu.edu.tr/course/view.php?id=261 & http://ae.metu.edu.tr/~ilkay/
Middle East Techni...
Instructor: Assoc.Prof. Dr. Ilkay Yavrucuk
For Lecture Notes: http://ocw.metu.edu.tr/course/view.php?id=261 & http://ae.metu.edu.tr/~ilkay/
Middle East Technical University
OpenCourseWare: [ http://ocw.metu.edu.tr ]
Youtube Channel: [ http://www.youtube.com/METUOpenCourseWare ]
https://wn.com/Ae372_Flight_Mechanics_Lecture_1.1_Course_Intro_Review_Of_System_Dynamics
Instructor: Assoc.Prof. Dr. Ilkay Yavrucuk
For Lecture Notes: http://ocw.metu.edu.tr/course/view.php?id=261 & http://ae.metu.edu.tr/~ilkay/
Middle East Technical University
OpenCourseWare: [ http://ocw.metu.edu.tr ]
Youtube Channel: [ http://www.youtube.com/METUOpenCourseWare ]
- published: 10 Mar 2017
- views: 3557
M1 Mechanics - Car and Trailer - Connected Particles (M1 Mechanics AQA Edexcel Dynamics)
- Order: Reorder
- Duration: 41:56
- Updated: 05 Apr 2014
- views: 12871
All videos can be found at www.m4ths.com and www.astarmaths.com
These videos were donated to the channel by Steve Blades of maths247 'fame'. Please share via tw...
All videos can be found at www.m4ths.com and www.astarmaths.com
These videos were donated to the channel by Steve Blades of maths247 'fame'. Please share via twitter or facebook if you find them helpful.
Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
https://wn.com/M1_Mechanics_Car_And_Trailer_Connected_Particles_(M1_Mechanics_Aqa_Edexcel_Dynamics)
All videos can be found at www.m4ths.com and www.astarmaths.com
These videos were donated to the channel by Steve Blades of maths247 'fame'. Please share via twitter or facebook if you find them helpful.
Designed for the Edexcel spec but applicable to AQA, OCR,MEI and WJEC.
- published: 05 Apr 2014
- views: 12871
Mod-01 Lec-10 Hamiltonian dynamics (Part 1)
- Order: Reorder
- Duration: 1:06:30
- Updated: 15 May 2009
- views: 60288
Lecture Series on Classical Physics by Prof.V.Balakrishnan, Department of Physics, IIT Madras. For more details on NPTEL visit http://nptel.iitm.ac.in
Lecture Series on Classical Physics by Prof.V.Balakrishnan, Department of Physics, IIT Madras. For more details on NPTEL visit http://nptel.iitm.ac.in
https://wn.com/Mod_01_Lec_10_Hamiltonian_Dynamics_(Part_1)
Lecture Series on Classical Physics by Prof.V.Balakrishnan, Department of Physics, IIT Madras. For more details on NPTEL visit http://nptel.iitm.ac.in
- published: 15 May 2009
- views: 60288
Verbal lesson (Mid lane dynamics/mechanics/path to pro)
- Order: Reorder
- Duration: 4:50:41
- Updated: 19 Sep 2016
- views: 42
If you would like to contact me about coaching, email me at christyfri17@gmail.com -- Watch live at https://www.twitch.tv/theenderl
If you would like to contact me about coaching, email me at christyfri17@gmail.com -- Watch live at https://www.twitch.tv/theenderl
https://wn.com/Verbal_Lesson_(Mid_Lane_Dynamics_Mechanics_Path_To_Pro)
If you would like to contact me about coaching, email me at christyfri17@gmail.com -- Watch live at https://www.twitch.tv/theenderl
- published: 19 Sep 2016
- views: 42
Lec 06: Newton's First, Second, and Third Laws | 8.01 Classical Mechanics, Fall 1999 (Walter Lewin)
- Order: Reorder
- Duration: 49:16
- Updated: 10 Dec 2014
- views: 114651
This lecture is all about Newton's First (inertia), Second (F=ma) and Third (action=-reaction) Laws.
This lecture is part of 8.01 Physics I: Classical Mechanic...
This lecture is all about Newton's First (inertia), Second (F=ma) and Third (action=-reaction) Laws.
This lecture is part of 8.01 Physics I: Classical Mechanics, as taught in Fall 1999 by Dr. Walter Lewin at MIT.
This video was formerly hosted on the YouTube channel MIT OpenCourseWare.
This version was downloaded from the Internet Archive, at https://archive.org/details/MIT8.01F99/.
Attribution: MIT OpenCourseWare
License: Creative Commons BY-NC-SA 3.0 US
To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/us/.
More information at http://ocw.mit.edu/terms/.
This YouTube channel is independently operated. It is not affiliated with MIT, MIT OpenCourseWare, the Internet Archive, or Dr. Lewin, nor do they endorse any content on this channel.
https://wn.com/Lec_06_Newton's_First,_Second,_And_Third_Laws_|_8.01_Classical_Mechanics,_Fall_1999_(Walter_Lewin)
This lecture is all about Newton's First (inertia), Second (F=ma) and Third (action=-reaction) Laws.
This lecture is part of 8.01 Physics I: Classical Mechanics, as taught in Fall 1999 by Dr. Walter Lewin at MIT.
This video was formerly hosted on the YouTube channel MIT OpenCourseWare.
This version was downloaded from the Internet Archive, at https://archive.org/details/MIT8.01F99/.
Attribution: MIT OpenCourseWare
License: Creative Commons BY-NC-SA 3.0 US
To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/us/.
More information at http://ocw.mit.edu/terms/.
This YouTube channel is independently operated. It is not affiliated with MIT, MIT OpenCourseWare, the Internet Archive, or Dr. Lewin, nor do they endorse any content on this channel.
- published: 10 Dec 2014
- views: 114651
20. Fluid Dynamics and Statics and Bernoulli's Equation
- Order: Reorder
- Duration: 1:12:32
- Updated: 23 Sep 2008
- views: 691083
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, ...
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu.
Fundamentals of Physics (PHYS 200)
The focus of the lecture is on fluid dynamics and statics. Different properties are discussed, such as density and pressure. Archimedes' Principle is introduced and demonstrated through a number of problems. The final topic of the lecture is Bernoulli's Equation.
00:00 - Chapter 1. Introduction to Fluid Dynamics and Statics — The Notion of Pressure
04:14 - Chapter 2. Fluid Pressure as a Function of Height
20:49 - Chapter 3. The Hydraulic Press
26:32 - Chapter 4. Archimedes' Principle
36:36 - Chapter 5. Bernoulli's Equation
39:12 - Chapter 6. The Equation of Continuity
53:41 - Chapter 7. Applications of Bernoulli's Equation
Complete course materials are available at the Yale Online website: online.yale.edu
This course was recorded in Fall 2006.
https://wn.com/20._Fluid_Dynamics_And_Statics_And_Bernoulli's_Equation
For more information about Professor Shankar's book based on the lectures from this course, Fundamentals of Physics: Mechanics, Relativity, and Thermodynamics, visit http://bit.ly/1jFIqNu.
Fundamentals of Physics (PHYS 200)
The focus of the lecture is on fluid dynamics and statics. Different properties are discussed, such as density and pressure. Archimedes' Principle is introduced and demonstrated through a number of problems. The final topic of the lecture is Bernoulli's Equation.
00:00 - Chapter 1. Introduction to Fluid Dynamics and Statics — The Notion of Pressure
04:14 - Chapter 2. Fluid Pressure as a Function of Height
20:49 - Chapter 3. The Hydraulic Press
26:32 - Chapter 4. Archimedes' Principle
36:36 - Chapter 5. Bernoulli's Equation
39:12 - Chapter 6. The Equation of Continuity
53:41 - Chapter 7. Applications of Bernoulli's Equation
Complete course materials are available at the Yale Online website: online.yale.edu
This course was recorded in Fall 2006.
- published: 23 Sep 2008
- views: 691083
Kinematics of Rigid Bodies - Engineering Mechanics - First Year Engineering
- Order: Reorder
- Duration: 34:07
- Updated: 22 Aug 2016
- views: 16674
Video Lecture on Kinematics of Rigid Bodies from Kinematics of Particles chapter of Engineering Mechanics for first year Diploma & Engineering Degree.
To Acce...
Video Lecture on Kinematics of Rigid Bodies from Kinematics of Particles chapter of Engineering Mechanics for first year Diploma & Engineering Degree.
To Access Complete Course of Engineering Mechanics Click here:-
http://www.ekeeda.com/course/SEM-I/Mumbai-University/Computer-Engineering/Engineering-Mechanics/144
Watch Previous Videos of Chapter Review of Kinematics of Particles :-
1)Motion Diagram - Problem 5 - Kinematics of Particles - Engineering Mechanics - First Year Engineering-https://youtu.be/Wy9v5jJp81c
2)Motion Diagram - Problem 4 - Kinematics of Particles - Engineering Mechanics - First Year Engineering-https://youtu.be/nxC2icFnY0Q
Watch Next Videos of Chapter Review of Kinematics of Particles :-
1)Kinematics of Rigid Bodies- Problem 1 - Engineering Mechanics - First Year Engineering-https://youtu.be/uZTzcd-_q3M
2)Kinematics of Rigid Bodies- Problem 2 - Engineering Mechanics - First Year Engineering-https://youtu.be/HBkG56v6BC8
Access the complete playlist of Engineering Mechanics:- http://gg.gg/Engineering-Mechanics-Complete
Subscribe to Ekeeda Channel to access more videos http://gg.gg/Subscribe-Now
#motiondiagram
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https://wn.com/Kinematics_Of_Rigid_Bodies_Engineering_Mechanics_First_Year_Engineering
Video Lecture on Kinematics of Rigid Bodies from Kinematics of Particles chapter of Engineering Mechanics for first year Diploma & Engineering Degree.
To Access Complete Course of Engineering Mechanics Click here:-
http://www.ekeeda.com/course/SEM-I/Mumbai-University/Computer-Engineering/Engineering-Mechanics/144
Watch Previous Videos of Chapter Review of Kinematics of Particles :-
1)Motion Diagram - Problem 5 - Kinematics of Particles - Engineering Mechanics - First Year Engineering-https://youtu.be/Wy9v5jJp81c
2)Motion Diagram - Problem 4 - Kinematics of Particles - Engineering Mechanics - First Year Engineering-https://youtu.be/nxC2icFnY0Q
Watch Next Videos of Chapter Review of Kinematics of Particles :-
1)Kinematics of Rigid Bodies- Problem 1 - Engineering Mechanics - First Year Engineering-https://youtu.be/uZTzcd-_q3M
2)Kinematics of Rigid Bodies- Problem 2 - Engineering Mechanics - First Year Engineering-https://youtu.be/HBkG56v6BC8
Access the complete playlist of Engineering Mechanics:- http://gg.gg/Engineering-Mechanics-Complete
Subscribe to Ekeeda Channel to access more videos http://gg.gg/Subscribe-Now
#motiondiagram
#motiondiagramtutorials
#motiondiagramnumericals
#problembasedonmotiondiagram
#Engineeringmechanics
#appliedmechanicslectures
#appliedmechanicsvideolectures
#appliedmechanics
#engineeringmechanicslectures
#appliedmechanicstutorials
#appliedmechanics
Thanks For Watching. You can follow and Like us in following social media.
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Happy Learning : )
- published: 22 Aug 2016
- views: 16674
- Playlist
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51:04
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
This channel is managed by up and coming UK maths teachers. Videos designed for the site b...
published: 25 Aug 2013
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
- Report rights infringement
- published: 25 Aug 2013
- views: 37082
2:08:35
FE Exam Review: Statics, Dynamics, Mechanics of Deformable Bodies (2016.11.07)
Example Problems
published: 08 Nov 2016
FE Exam Review: Statics, Dynamics, Mechanics of Deformable Bodies (2016.11.07)
FE Exam Review: Statics, Dynamics, Mechanics of Deformable Bodies (2016.11.07)
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- published: 08 Nov 2016
- views: 27910
6:41
3. Kinematics, Dynamics and Static (Hindi)
OVERVIEW OF KINEMATICS, DYNAMICS AND STATIC
published: 17 Feb 2016
3. Kinematics, Dynamics and Static (Hindi)
3. Kinematics, Dynamics and Static (Hindi)
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- published: 17 Feb 2016
- views: 75015
5:16
Physics - Mechanics: Rotational Motion (1 of 6) An Introduction
Visit http://ilectureonline.com for more math and science lectures!
In this video I will ...
published: 14 Mar 2013
Physics - Mechanics: Rotational Motion (1 of 6) An Introduction
Physics - Mechanics: Rotational Motion (1 of 6) An Introduction
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- published: 14 Mar 2013
- views: 222992
15:57
AP Physics C: Dynamics Review (Mechanics)
Calculus based review of Newton’s three laws, basic forces in dynamics such as the force o...
published: 16 Mar 2017
AP Physics C: Dynamics Review (Mechanics)
AP Physics C: Dynamics Review (Mechanics)
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- published: 16 Mar 2017
- views: 5702
9:26
Projectile Motion - Engineering Dynamics
introduction and explanation of the projectile motion problem
published: 15 Jun 2011
Projectile Motion - Engineering Dynamics
Projectile Motion - Engineering Dynamics
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- published: 15 Jun 2011
- views: 40323
7:01
Physics - Mechanics: The Inclined Plane (2 of 2) With Friction
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This lecture series w...
published: 20 Jan 2013
Physics - Mechanics: The Inclined Plane (2 of 2) With Friction
Physics - Mechanics: The Inclined Plane (2 of 2) With Friction
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- published: 20 Jan 2013
- views: 285872
11:04
Newton's Laws: Crash Course Physics #5
I'm sure you've heard of Isaac Newton and maybe of some of his laws. Like, that thing abou...
published: 28 Apr 2016
Newton's Laws: Crash Course Physics #5
Newton's Laws: Crash Course Physics #5
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- published: 28 Apr 2016
- views: 952531
9:06
Physics - Adv. Mechanics: Lagrangian Mech. (1 of 25) What is Lagrangian Mechanics?
Visit http://ilectureonline.com for more math and science lectures!
In this video I will ...
published: 30 Mar 2016
Physics - Adv. Mechanics: Lagrangian Mech. (1 of 25) What is Lagrangian Mechanics?
Physics - Adv. Mechanics: Lagrangian Mech. (1 of 25) What is Lagrangian Mechanics?
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- published: 30 Mar 2016
- views: 63341
20:43
Dynamics with SymPy Mechanics; SciPy 2013 Presentation
Authors: Moore, Jason, University of California at Davis
Track: General
The SymPy Mechan...
published: 02 Jul 2013
Dynamics with SymPy Mechanics; SciPy 2013 Presentation
Dynamics with SymPy Mechanics; SciPy 2013 Presentation
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- published: 02 Jul 2013
- views: 3180
1:21:17
15. Introduction to Lagrange With Examples
MIT 2.003SC Engineering Dynamics, Fall 2011
View the complete course: http://ocw.mit.edu/2...
published: 03 Sep 2013
15. Introduction to Lagrange With Examples
15. Introduction to Lagrange With Examples
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- published: 03 Sep 2013
- views: 241499
7:24
Physics - Adv. Mechanics: Hamiltonian Mech. (1 of 18) What is Hamiltonian Mechanics?
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In this video I will ...
published: 14 Apr 2016
Physics - Adv. Mechanics: Hamiltonian Mech. (1 of 18) What is Hamiltonian Mechanics?
Physics - Adv. Mechanics: Hamiltonian Mech. (1 of 18) What is Hamiltonian Mechanics?
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- published: 14 Apr 2016
- views: 31587
2:14
Mechanics: Kinematics and Dynamics | MITx on edX | Course About Video
Learn about kinematics and dynamics in this calculus-based physics course.
Take this cour...
published: 06 Oct 2016
Mechanics: Kinematics and Dynamics | MITx on edX | Course About Video
Mechanics: Kinematics and Dynamics | MITx on edX | Course About Video
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- published: 06 Oct 2016
- views: 1470
4:14
Physics - Mechanics: Rigid Body Rotation (1 of 10) Basics
Visit http://ilectureonline.com for more math and science lectures!
In this video I will ...
published: 20 May 2014
Physics - Mechanics: Rigid Body Rotation (1 of 10) Basics
Physics - Mechanics: Rigid Body Rotation (1 of 10) Basics
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- published: 20 May 2014
- views: 70787
- Playlist
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51:04
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
This channel is managed by up and coming UK maths teachers. Videos designed for the site b...
published: 25 Aug 2013
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
Mechanics 1 - M1 - Dynamics of a Particle (1) Inclined Planes Basic intro
- Report rights infringement
- published: 25 Aug 2013
- views: 37082
2:08:35
FE Exam Review: Statics, Dynamics, Mechanics of Deformable Bodies (2016.11.07)
Example Problems
published: 08 Nov 2016
FE Exam Review: Statics, Dynamics, Mechanics of Deformable Bodies (2016.11.07)
FE Exam Review: Statics, Dynamics, Mechanics of Deformable Bodies (2016.11.07)
- Report rights infringement
- published: 08 Nov 2016
- views: 27910
1:09:04
System Dynamics and Control: Module 4 - Modeling Mechanical Systems
Introduction to modeling mechanical systems from first principles. In particular, systems ...
published: 18 Aug 2013
System Dynamics and Control: Module 4 - Modeling Mechanical Systems
System Dynamics and Control: Module 4 - Modeling Mechanical Systems
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- published: 18 Aug 2013
- views: 101602
37:20
Julie Theriot (Stanford, HHMI) 2: Mechanics and Dynamics of Rapid Cell Motility
http://www.ibiology.org/ibioseminars/cell-biology/julie-theriot-part-2.html
In Part 1 of ...
published: 29 Mar 2016
Julie Theriot (Stanford, HHMI) 2: Mechanics and Dynamics of Rapid Cell Motility
Julie Theriot (Stanford, HHMI) 2: Mechanics and Dynamics of Rapid Cell Motility
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- published: 29 Mar 2016
- views: 7589
48:23
Mechanics 1 - M1 - Dynamics of a Particle (1) Brief Intro - Newtons 2nd Law N2L
This channel is managed by up and coming UK maths teachers. Videos designed for the site b...
published: 25 Aug 2013
Mechanics 1 - M1 - Dynamics of a Particle (1) Brief Intro - Newtons 2nd Law N2L
Mechanics 1 - M1 - Dynamics of a Particle (1) Brief Intro - Newtons 2nd Law N2L
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- published: 25 Aug 2013
- views: 22577
1:21:17
15. Introduction to Lagrange With Examples
MIT 2.003SC Engineering Dynamics, Fall 2011
View the complete course: http://ocw.mit.edu/2...
published: 03 Sep 2013
15. Introduction to Lagrange With Examples
15. Introduction to Lagrange With Examples
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- published: 03 Sep 2013
- views: 241499
28:55
Classical Mechanics - A Level Physics
A Level Physics revision: Classical mechanics - covering Newton's Laws, velocity, accelera...
published: 03 Mar 2012
Classical Mechanics - A Level Physics
Classical Mechanics - A Level Physics
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- published: 03 Mar 2012
- views: 420027
20:43
Dynamics with SymPy Mechanics; SciPy 2013 Presentation
Authors: Moore, Jason, University of California at Davis
Track: General
The SymPy Mechan...
published: 02 Jul 2013
Dynamics with SymPy Mechanics; SciPy 2013 Presentation
Dynamics with SymPy Mechanics; SciPy 2013 Presentation
- Report rights infringement
- published: 02 Jul 2013
- views: 3180
56:39
Symplectic Dynamics of Integrable Hamiltonian Systems - Alvaro Pelayo
Alvaro Pelayo
Member, School of Mathematics
April 4, 2011
I will start with a review the b...
published: 25 Aug 2016
Symplectic Dynamics of Integrable Hamiltonian Systems - Alvaro Pelayo
Symplectic Dynamics of Integrable Hamiltonian Systems - Alvaro Pelayo
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- published: 25 Aug 2016
- views: 658
1:13:21
1. Course Introduction and Newtonian Mechanics
For more information about Professor Shankar's book based on the lectures from this course...
published: 22 Sep 2008
1. Course Introduction and Newtonian Mechanics
1. Course Introduction and Newtonian Mechanics
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- published: 22 Sep 2008
- views: 669882
1:13:51
9. Rotations, Part I: Dynamics of Rigid Bodies
For more information about Professor Shankar's book based on the lectures from this course...
published: 22 Sep 2008
9. Rotations, Part I: Dynamics of Rigid Bodies
9. Rotations, Part I: Dynamics of Rigid Bodies
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- published: 22 Sep 2008
- views: 149053
48:44
Mod-01 Lec-06 Tire Mechanics – An Introduction
Vehicle Dynamics by Dr.R.Krishnakumar,Department of Engineering Design,IIT Madras.For more...
published: 30 Jul 2014
Mod-01 Lec-06 Tire Mechanics – An Introduction
Mod-01 Lec-06 Tire Mechanics – An Introduction
- Report rights infringement
- published: 30 Jul 2014
- views: 19273
41:05
AE372 - Flight Mechanics - Lecture 1.2 [Review of System Dynamics]
Instructor: Assoc.Prof. Dr. Ilkay Yavrucuk
For Lecture Notes: http://ocw.metu.edu.tr/cours...
published: 10 Mar 2017
AE372 - Flight Mechanics - Lecture 1.2 [Review of System Dynamics]
AE372 - Flight Mechanics - Lecture 1.2 [Review of System Dynamics]
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AE372 - Flight Mechanics - Lecture 1.1 [Course Intro - Review of System Dynamics]
Instructor: Assoc.Prof. Dr. Ilkay Yavrucuk
For Lecture Notes: http://ocw.metu.edu.tr/cours...
published: 10 Mar 2017
AE372 - Flight Mechanics - Lecture 1.1 [Course Intro - Review of System Dynamics]
AE372 - Flight Mechanics - Lecture 1.1 [Course Intro - Review of System Dynamics]
- Report rights infringement
- published: 10 Mar 2017
- views: 3557
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