- published: 01 Jul 2016
- views: 6832
Create your page here
-
remove the playlistOptics
- remove the playlistOptics
back to playlist
Continuing the A Level Physics revision series with geometric optics. The lens formula. Real and virtual images. Convex and Concave lenses and mirrors.
- published: 03 May 2012
- views: 64681
This video has it all. Seriously, all of it. But no math, and no ray tracing. But maybe you just want to understand. Who can blame you?
Just look at the light in that thumbnail bending away from the normal to the surface as it exits the plastic. All of geometric optics with lenses stems from that simple effect.
- published: 01 Mar 2013
- views: 45579
Physics: Introduction to geometric optics for lenses and mirrors. Concave, convex, converging, diverging; real, virtual; upright, inverted, magnified, shrunk. Sign conventions for focal length, image distance, object distance, magnification. The lens/mirror equation; the magnification equation. Introduction to ray tracing.
This is a recording of a tutoring session, posted with the student's permission.
These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website:
http://www.freelance-teacher.com/videos.htm
For printable documents containing the "handout" and problems discussed in this video series, go to my website.
For a list of all the available video series, arranged in suggested viewing order, go to my website.
For a playlist containing all the videos in this series, click here:
http://www.youtube.com/watch?v=ORUGwPP-mb4&feature;=PlayList&p;=6D90FB97EF9BA494&index;=0&playnext;=1
(1) The lens/mirror equation. Focal length distance, object distance. Convex, concave, diverging, converging
(2) Image distance. Real, virtual
(3) Continued. Magnified, shrunk
(4) Continued. Upright, inverted
(5) Continued. Magnification equation
(6) Continued. The lens/mirror chart
(7) A problem
(8) Continued. Ray tracing
(9) Continued
(10) Another problem
(11) Continued
tags: educational college student MCAT exam instructional video education
- published: 03 May 2009
- views: 187111
Are affordable sights good? Do they work? Are they a good option for more expensive options? We talk about affordable optics in this episode of Shop Talk.
Copper Custom: http://www.coppercustom.com
MAC on Instagram: http://www.instagram.com/militaryarms
MAC on Facebook: http://www.facebook.com/militaryarms
- published: 05 Jun 2014
- views: 196791
Candice Malcolm reports, Justin Trudeau proudly told Canadians that his government will remove the visa requirement for Mexican visitors coming to Canada. Mexican president Enrique Pena-Nieto is in town, and Trudeau wanted to impress his counterpart and make some headlines in the process. But Candice breaks down the numbers and explains why this reversal makes absolutely no sense and will cost Canadians billions of dollars each year. MORE http://www.therebel.media/trudeau_s_mexican_visa_reversal_puts_optics_ahead_of_canada_s_safety_security_and_balance_sheet
http://www.Facebook.com/JoinTheRebel
http://www.Twitter.com/TheRebelTV
"Don't blame me: I voted Conservative"
The t-shirt that says it all -- ONLY from TheRebel.media store!
https://tinyurl.com/votedconservative
- published: 30 Jun 2016
- views: 4163
How Fiber Optics Work
Bill uses a bucket of propylene glycol to show how a fiber optic cable works and how engineers send signal across oceans.
How Light Bulbs Work http://www.youtube.com/watch?v=SQIYXqnq-sU
How Does a Microwave Oven Work http://www.youtube.com/watch?v=9_v6uOYWU68
How Lasers Work http://www.youtube.com/watch?v=BP6Cl39TgQk
How Fiber Optics Work https://www.youtube.com/watch?v=9VmA2S2XiCo
How does a lead-acid battery work https://www.youtube.com/watch?v=ovWoajfIi94
How does a smoke detector work https://www.youtube.com/watch?v=I3FTuu-V8Is
How the Smartphone works http://www.youtube.com/watch?v=3wZQ0aZw3LI
How an atomic clock works http://www.youtube.com/watch?v=35LHWJOtVCU
How digital camera works http://www.youtube.com/watch?v=CrpYqi0r5kY
How does a hard drive works https://www.youtube.com/watch?v=HYAKiHKPd84
How Nuclear Bombs Work https://www.youtube.com/watch?v=Kf3O8qmkx2s
Anodizing the beauty of corrosion https://www.youtube.com/watch?v=c11nl8XcohE
0:02
William yo
0:08
I find this a fascinating objected to fiber optic cable for a Stereogum
0:13
if I shyness laser pointer down the cable it guides line up together in
0:18
these cables are used to connect our world today
0:23
are capable of transmitting information across countries in oceans
0:26
the first let me show you how it works all I have a bucket that modify with the
0:30
window in front
0:31
them and on the other side
0:35
I put the stopper in this whole right here group
0:41
a bottle of propylene glycol with just a little bit agreement most
0:47
a rinsed and Gracy
0:51
leased and
0:54
now keep your eye on this mom
0:58
little
1:08
that's wonderful the light follows the likud flow
1:11
all the way to the park amazing it does this because if total
1:15
internal reflection as light enters the stream is reflected as soon as it hits
1:20
the interface between here and liquid
1:21
you can see here the first reflection and in the second and the third
1:25
this occurs because there's a difference between the index refractive the guy
1:37
material reflected from a
1:38
or past into and through it the latter we call fraction
1:41
its easier to see from a top you reflection and refraction could happen
1:46
at the same time
1:47
but if the light rain hits the surface at an angle greater than the critical
1:50
angle
1:50
it will be completely reflected in not refracted for this property in like on
1:54
your system as long as a beam hits the surface at an angle greater
1:58
44-point 35 degrees measured from the normal
2:01
he will propagate down the street total internal reflection
2:04
to create the same effect in an optical fiber
2:07
engineers create a core of class usually pure silicon dioxide
2:11
an outside layer called cladding which they also typically make from silicon
2:15
dioxide
2:16
but with bits of boron merger mania to decrease its index of refraction
2:19
a one-percent difference is enough to make a fighter work
2:23
to make such a long thin piece of glass in juniors heat a large class pre for
2:27
its center is the pure core class and the outside the cladding
2:31
they didn't roll or Paula fiber by wind in the mail onto a wheel it speeds up to
2:35
1600 meters per second
2:37
typically these drawing towers are several stories tall
3:21
it could handle some 14,000 simultaneous phone calls
3:25
the essence and how they send information through a fiber optic cable
3:28
is very simple
3:52
we want to make this a digital signal which means discrete values loudness and
3:56
not just any value
3:57
for example a use for bits which means I have 16 possible values for the loudness
4:23
we can think the signal as a series on ones and zeros organized by time
4:27
and it is that sequence that we see in through a fire up the cable
4:30
flash for one and nothing 30 of course the exact method encoding is no one at
4:35
the receiving end
4:36
so it is a trivial matter to decipher the message now
4:39
fibers
4:48
look back on our property in stream here's how the attenuated travels
4:53
you can see here in narrow beam in the bucket the Broughton's a bit when it
4:56
enters the stream
4:57
and then after the first bounce the bean leaves even broader than and entered
5:01
that's because the interface for the air is uneven and the Rays that make up the
5:05
beam strike it slightly different angles
5:07
when that be makes its second reflection those individual raise diverge even more
5:11
Intel by the time it reaches the third bounce many the Rays are no longer the
5:15
critical angle
5:16
Lincoln exit from the side to the stream hear it happens in a few inches
5:20
the cable like having the signal travels a stunning 50 kilometers before it needs
5:24
to be amplified
5:25
absolutely amazing I don't have it the engineer guy
5:32
home
This video is Creative Commons https://creativecommons.org/licenses/by-sa/4.0/ and it is from https://goo.gl/tIuRCA
- published: 23 Feb 2014
- views: 400036
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, II (PHYS 201)
Geometric optics is discussed as an approximation to wave theory when the wavelength is very small compared to other lengths in the problem (such as the size of openings). Many results of geometric optics involving reflection, refraction (mirrors and lenses) are derived in a unified way using Fermat's Principle of Least Time.
00:00 - Chapter 1. Light as an Electromagnetic Phenomenon
07:17 - Chapter 2. Review of Geometrical (Classical) Optics
21:50 - Chapter 3. Fermat's Principle of Least Time and its Corollaries
Complete course materials are available at the Open Yale Courses website: http://open.yale.edu/courses
This course was recorded in Spring 2010.
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.
- published: 24 Mar 2011
- views: 78461
In optics, dispersion is the phenomenon in which the phase velocity of a wave depends on its frequency, or alternatively when the group velocity depends on the frequency. Media having such a property are termed dispersive media. Dispersion is sometimes called chromatic dispersion to emphasize its wavelength-dependent nature, or group-velocity dispersion (GVD) to emphasize the role of the group velocity. Dispersion is most often described for light waves, but it may occur for any kind of wave that interacts with a medium or passes through an inhomogeneous geometry (e.g., a waveguide), such as sound waves.
The most familiar example of dispersion is probably a rainbow, in which dispersion causes the spatial separation of a white light into components of different wavelengths (different colors). However, dispersion also has an effect in many other circumstances: for example, GVD causes pulses to spread in optical fibers, degrading signals over long distances; also, a cancellation between group-velocity dispersion and nonlinear effects leads to soliton waves.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Dispersion_(optics)
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.
Optics is the branch of physics which involves the behavior and properties of light, including its interactions with matter and the construction of instruments that use or detect it. Optics usually describes the behavior of visible, ultraviolet, and infrared light. Because light is an electromagnetic wave, other forms of electromagnetic radiation such as X-rays, microwaves, and radio waves exhibit similar properties.
Most optical phenomena can be accounted for using the classical electromagnetic description of light. Complete electromagnetic descriptions of light are, however, often difficult to apply in practice. Practical optics is usually done using simplified models. The most common of these, geometric optics, treats light as a collection of rays that travel in straight lines and bend when they pass through or reflect from surfaces. Physical optics is a more comprehensive model of light, which includes wave effects such as diffraction and interference that cannot be accounted for in geometric optics. Historically, the ray-based model of light was developed first, followed by the wave model of light. Progress in electromagnetic theory in the 19th century led to the discovery that light waves were in fact electromagnetic radiation.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Optics
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.
- Loading...
-
9:45The optics of the Clinton-Lynch private meeting
The optics of the Clinton-Lynch private meeting -
4:45Physics - Optics: Lenses (1 of 4) Converging Lens
Physics - Optics: Lenses (1 of 4) Converging Lens -
36:43Geometric Optics - A Level Physics
Geometric Optics - A Level PhysicsGeometric Optics - A Level Physics
Continuing the A Level Physics revision series with geometric optics. The lens formula. Real and virtual images. Convex and Concave lenses and mirrors. -
7:01Geometric Optics Intuition with Mirrors and Lenses Concave Convex Diverging Converging | Doc Physics
Geometric Optics Intuition with Mirrors and Lenses Concave Convex Diverging Converging | Doc PhysicsGeometric Optics Intuition with Mirrors and Lenses Concave Convex Diverging Converging | Doc Physics
This video has it all. Seriously, all of it. But no math, and no ray tracing. But maybe you just want to understand. Who can blame you? Just look at the light in that thumbnail bending away from the normal to the surface as it exits the plastic. All of geometric optics with lenses stems from that simple effect. -
10:48Physics: optics of lenses and mirrors (1)
Physics: optics of lenses and mirrors (1)Physics: optics of lenses and mirrors (1)
Physics: Introduction to geometric optics for lenses and mirrors. Concave, convex, converging, diverging; real, virtual; upright, inverted, magnified, shrunk. Sign conventions for focal length, image distance, object distance, magnification. The lens/mirror equation; the magnification equation. Introduction to ray tracing. This is a recording of a tutoring session, posted with the student's permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: http://www.freelance-teacher.com/videos.htm For printable documents containing the "handout" and problems discussed in this video series, go to my website. For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playlist containing all the videos in this series, click here: http://www.youtube.com/watch?v=ORUGwPP-mb4&feature;=PlayList&p;=6D90FB97EF9BA494&index;=0&playnext;=1 (1) The lens/mirror equation. Focal length distance, object distance. Convex, concave, diverging, converging (2) Image distance. Real, virtual (3) Continued. Magnified, shrunk (4) Continued. Upright, inverted (5) Continued. Magnification equation (6) Continued. The lens/mirror chart (7) A problem (8) Continued. Ray tracing (9) Continued (10) Another problem (11) Continued tags: educational college student MCAT exam instructional video education -
14:35Shop Talk: Affordable Optics
Shop Talk: Affordable OpticsShop Talk: Affordable Optics
Are affordable sights good? Do they work? Are they a good option for more expensive options? We talk about affordable optics in this episode of Shop Talk. Copper Custom: http://www.coppercustom.com MAC on Instagram: http://www.instagram.com/militaryarms MAC on Facebook: http://www.facebook.com/militaryarms -
5:26Trudeau’s Mexican Visa reversal puts “optics” ahead of Canada’s safety, security and balance sheet
Trudeau’s Mexican Visa reversal puts “optics” ahead of Canada’s safety, security and balance sheetTrudeau’s Mexican Visa reversal puts “optics” ahead of Canada’s safety, security and balance sheet
Candice Malcolm reports, Justin Trudeau proudly told Canadians that his government will remove the visa requirement for Mexican visitors coming to Canada. Mexican president Enrique Pena-Nieto is in town, and Trudeau wanted to impress his counterpart and make some headlines in the process. But Candice breaks down the numbers and explains why this reversal makes absolutely no sense and will cost Canadians billions of dollars each year. MORE http://www.therebel.media/trudeau_s_mexican_visa_reversal_puts_optics_ahead_of_canada_s_safety_security_and_balance_sheet http://www.Facebook.com/JoinTheRebel http://www.Twitter.com/TheRebelTV "Don't blame me: I voted Conservative" The t-shirt that says it all -- ONLY from TheRebel.media store! https://tinyurl.com/votedconservative -
5:36How Fiber Optics Work
How Fiber Optics WorkHow Fiber Optics Work
How Fiber Optics Work Bill uses a bucket of propylene glycol to show how a fiber optic cable works and how engineers send signal across oceans. How Light Bulbs Work http://www.youtube.com/watch?v=SQIYXqnq-sU How Does a Microwave Oven Work http://www.youtube.com/watch?v=9_v6uOYWU68 How Lasers Work http://www.youtube.com/watch?v=BP6Cl39TgQk How Fiber Optics Work https://www.youtube.com/watch?v=9VmA2S2XiCo How does a lead-acid battery work https://www.youtube.com/watch?v=ovWoajfIi94 How does a smoke detector work https://www.youtube.com/watch?v=I3FTuu-V8Is How the Smartphone works http://www.youtube.com/watch?v=3wZQ0aZw3LI How an atomic clock works http://www.youtube.com/watch?v=35LHWJOtVCU How digital camera works http://www.youtube.com/watch?v=CrpYqi0r5kY How does a hard drive works https://www.youtube.com/watch?v=HYAKiHKPd84 How Nuclear Bombs Work https://www.youtube.com/watch?v=Kf3O8qmkx2s Anodizing the beauty of corrosion https://www.youtube.com/watch?v=c11nl8XcohE 0:02 William yo 0:08 I find this a fascinating objected to fiber optic cable for a Stereogum 0:13 if I shyness laser pointer down the cable it guides line up together in 0:18 these cables are used to connect our world today 0:23 are capable of transmitting information across countries in oceans 0:26 the first let me show you how it works all I have a bucket that modify with the 0:30 window in front 0:31 them and on the other side 0:35 I put the stopper in this whole right here group 0:41 a bottle of propylene glycol with just a little bit agreement most 0:47 a rinsed and Gracy 0:51 leased and 0:54 now keep your eye on this mom 0:58 little 1:08 that's wonderful the light follows the likud flow 1:11 all the way to the park amazing it does this because if total 1:15 internal reflection as light enters the stream is reflected as soon as it hits 1:20 the interface between here and liquid 1:21 you can see here the first reflection and in the second and the third 1:25 this occurs because there's a difference between the index refractive the guy 1:37 material reflected from a 1:38 or past into and through it the latter we call fraction 1:41 its easier to see from a top you reflection and refraction could happen 1:46 at the same time 1:47 but if the light rain hits the surface at an angle greater than the critical 1:50 angle 1:50 it will be completely reflected in not refracted for this property in like on 1:54 your system as long as a beam hits the surface at an angle greater 1:58 44-point 35 degrees measured from the normal 2:01 he will propagate down the street total internal reflection 2:04 to create the same effect in an optical fiber 2:07 engineers create a core of class usually pure silicon dioxide 2:11 an outside layer called cladding which they also typically make from silicon 2:15 dioxide 2:16 but with bits of boron merger mania to decrease its index of refraction 2:19 a one-percent difference is enough to make a fighter work 2:23 to make such a long thin piece of glass in juniors heat a large class pre for 2:27 its center is the pure core class and the outside the cladding 2:31 they didn't roll or Paula fiber by wind in the mail onto a wheel it speeds up to 2:35 1600 meters per second 2:37 typically these drawing towers are several stories tall 3:21 it could handle some 14,000 simultaneous phone calls 3:25 the essence and how they send information through a fiber optic cable 3:28 is very simple 3:52 we want to make this a digital signal which means discrete values loudness and 3:56 not just any value 3:57 for example a use for bits which means I have 16 possible values for the loudness 4:23 we can think the signal as a series on ones and zeros organized by time 4:27 and it is that sequence that we see in through a fire up the cable 4:30 flash for one and nothing 30 of course the exact method encoding is no one at 4:35 the receiving end 4:36 so it is a trivial matter to decipher the message now 4:39 fibers 4:48 look back on our property in stream here's how the attenuated travels 4:53 you can see here in narrow beam in the bucket the Broughton's a bit when it 4:56 enters the stream 4:57 and then after the first bounce the bean leaves even broader than and entered 5:01 that's because the interface for the air is uneven and the Rays that make up the 5:05 beam strike it slightly different angles 5:07 when that be makes its second reflection those individual raise diverge even more 5:11 Intel by the time it reaches the third bounce many the Rays are no longer the 5:15 critical angle 5:16 Lincoln exit from the side to the stream hear it happens in a few inches 5:20 the cable like having the signal travels a stunning 50 kilometers before it needs 5:24 to be amplified 5:25 absolutely amazing I don't have it the engineer guy 5:32 home This video is Creative Commons https://creativecommons.org/licenses/by-sa/4.0/ and it is from https://goo.gl/tIuRCA -
73:2116. Ray or Geometrical Optics I
16. Ray or Geometrical Optics I16. Ray or Geometrical Optics I
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, II (PHYS 201) Geometric optics is discussed as an approximation to wave theory when the wavelength is very small compared to other lengths in the problem (such as the size of openings). Many results of geometric optics involving reflection, refraction (mirrors and lenses) are derived in a unified way using Fermat's Principle of Least Time. 00:00 - Chapter 1. Light as an Electromagnetic Phenomenon 07:17 - Chapter 2. Review of Geometrical (Classical) Optics 21:50 - Chapter 3. Fermat's Principle of Least Time and its Corollaries Complete course materials are available at the Open Yale Courses website: http://open.yale.edu/courses This course was recorded in Spring 2010. 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. -
4:47How It's Made, Fiber Optics.
How It's Made, Fiber Optics.How It's Made, Fiber Optics.
- Absorption (optics)
- Achroite
- Achromat
- Achromatic lens
- Actinolite
- AgInSbTe
- Alabaster
- Albite
- Alexandrite
- Almandine
- Amblygonite
- Amethyst
- Amici prism
- Amplitude
- Anatase
- Andalusite
- Andradite
- Anglesite
- Angular frequency
- Anhydrite
- Annealing (glass)
- Anorthite
- Apatite
- Apophyllite
- Aragonite
- Augelite
- Aventurine
- Axinite
- Baryte
- Benitoite
- Beryl
- Beryllonite
- Bibcode
- Bioactive glass
- Bioglass
- Boracite
- Borosilicate glass
- Brazilianite
- Brookite
- Bytownite
- Calcite
- Cancrinite
- Cassiterite
- Cauchy's equation
- Celestine (mineral)
- Ceramic glaze
- Cerussite
- Chalcogenide glass
- Chirp
- Chirped mirror
- Chromatic aberration
- Chrysoberyl
- Cinnabar
- Citrine
- Clinozoisite
- Cobalt glass
- Color
- Cordierite
- CorningWare
- Corrosion
- Corundum
- Cranberry glass
- Crown glass (optics)
- Cryolite
- Danburite
- Datolite
- Dealkalization
- Demantoid
- Diamond
- Diaspore
- Diffraction grating
- Diopside
- Dioptase
- Dispersion (optics)
- Dispersion parameter
- Dispersion relation
- Dispersive prism
- DNA microarray
- Dolomite
- Dravite
- Ekanite
- Elbaite
- Emerald
- Enstatite
- Epidote
- Euclase
- Fabulite
- Feldspar
- Fibres
- Flint glass
- Fluctuation theorem
- Fluorite
- Fluorosilicate glass
- Four wave mixing
- Fourier transform
- Fraunhofer line
- Fused quartz
- Gahnite
- Gemology
- Gemstone
- GeSbTe
- Glass
- Glass databases
- Glass electrode
- Glass ionomer cement
- Glass microsphere
- Glass production
- Glass transition
- Glass-ceramic
- Glass-coated wire
- Glass-to-metal seal
- Goethite
- Goshenite
- Green–Kubo relations
- Grossular
- Group delay
- Group velocity
- Gypsum
- Hambergite
- Hauyne
- Heliodor
- Hematite
- Hemimorphite
- Herderite
- Hessonite
- Hiddenite
- Holographic
- Hyacinth (mineral)
- Hydrogen darkening
- Indicolite
- Insulated glazing
- Interstellar medium
- Ion implantation
- Jargoon
- Jeremejevite
- Kornerupine
- Kunzite
- Kyanite
- Labradorite
- Laser
- Laser construction
- Lead glass
- Lens (optics)
- Leucite
- Liddicoatite
- Light
- Linobate
- Liquidus temperature
- MACOR
- Magnesite
- Magnetic constant
- Max Born
- Maxwell's equations
- Milk glass
- Modal dispersion
- Moissanite
- Moonstone (gemstone)
- Morganite
- Morion (mineral)
- Nanometre
- Natrolite
- Nepheline
- Nonlinear
- Nonlinear optics
- Obsidian
- Optical amplifier
- Optical fiber
- Optical fibers
- Optical lens design
- Optical spectrum
- Optics
- Orthoclase
- Parsec
- Peridote
- Phase (waves)
- Phase velocity
- Phenakite
- Phosphophyllite
- Photochromic lens
- Photonic crystal
- Photosensitive glass
- Picosecond
- Pleonaste
- Pollucite
- Porous glass
- Powellite
- Prasiolite
- Prince Rupert's Drop
- Prism (optics)
- Propagation constant
- PubMed Identifier
- Pulsar
- Pyrope
- Pyroxmangite
- Quartz
- Radioactive waste
- Rainbow
- Refraction
- Refractive index
- Rhodizite
- Rhodochrosite
- Rhodolite
- Rubellite
- Ruby
- Rutile
- Sanidine
- Sapphire
- Scapolite
- Scheelite
- Schorl
- Self-cleaning glass
- Sellmeier equation
- Signal velocity
- Silica
- Silicate glass
- Sillimanite
- Sinhalite
- Smithsonite
- Snell's law
- Soda-lime glass
- Sodalite
- Sol-gel
- Soliton
- Soliton (optics)
- Soluble glass
- Sound
- Spectrometer
- Spectroradiometer
- Speed of light
- Spessartine
- Sphalerite
- Spinel
- Split-step method
- Spodumene
- Spread spectrum
- Starlite
- Staurolite
- Stibiotantalite
- Strontianite
- Sulfur
- Sunstone
- Supercooling
- Surface normal
- Tanzanite
- Taylor series
- Telecommunication
- Tellurite glass
- Thulite
- Titanite
- Topaz
- Toughened glass
- Tourmaline
- Transverse mode
- Tremolite
- Ultrashort pulse
- Uranium glass
- Uvarovite
- Vanadinite
- Velocity
- Verdelite
- Vesuvianite
- Viscosity
- Vitreous enamel
- Vitrification
- Waveguide
- Wavelength
- Wavelengths
- Whewellite
- White light
- Willemite
- Windshield
- Wood's glass
- Wulfenite
- X-ray
- YAG
- ZBLAN
- Zerodur
- Zincite
- Zircon
- Zirconia
- Zoisite
-
-
-
Geometric Optics - A Level Physics
Continuing the A Level Physics revision series with geometric optics. The lens formula. Real and virtual images. Convex and Concave lenses and mirrors. -
Geometric Optics Intuition with Mirrors and Lenses Concave Convex Diverging Converging | Doc Physics
This video has it all. Seriously, all of it. But no math, and no ray tracing. But maybe you just want to understand. Who can blame you? Just look at the light in that thumbnail bending away from the normal to the surface as it exits the plastic. All of geometric optics with lenses stems from that simple effect. -
Physics: optics of lenses and mirrors (1)
Physics: Introduction to geometric optics for lenses and mirrors. Concave, convex, converging, diverging; real, virtual; upright, inverted, magnified, shrunk. Sign conventions for focal length, image distance, object distance, magnification. The lens/mirror equation; the magnification equation. Introduction to ray tracing. This is a recording of a tutoring session, posted with the student's permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: http://www.freelance-teacher.com/videos.htm For printable documents containing the "handout" and problems discussed in this video series, go to my website. For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playl... -
Shop Talk: Affordable Optics
Are affordable sights good? Do they work? Are they a good option for more expensive options? We talk about affordable optics in this episode of Shop Talk. Copper Custom: http://www.coppercustom.com MAC on Instagram: http://www.instagram.com/militaryarms MAC on Facebook: http://www.facebook.com/militaryarms -
Trudeau’s Mexican Visa reversal puts “optics” ahead of Canada’s safety, security and balance sheet
Candice Malcolm reports, Justin Trudeau proudly told Canadians that his government will remove the visa requirement for Mexican visitors coming to Canada. Mexican president Enrique Pena-Nieto is in town, and Trudeau wanted to impress his counterpart and make some headlines in the process. But Candice breaks down the numbers and explains why this reversal makes absolutely no sense and will cost Canadians billions of dollars each year. MORE http://www.therebel.media/trudeau_s_mexican_visa_reversal_puts_optics_ahead_of_canada_s_safety_security_and_balance_sheet http://www.Facebook.com/JoinTheRebel http://www.Twitter.com/TheRebelTV "Don't blame me: I voted Conservative" The t-shirt that says it all -- ONLY from TheRebel.media store! https://tinyurl.com/votedconservative -
How Fiber Optics Work
How Fiber Optics Work Bill uses a bucket of propylene glycol to show how a fiber optic cable works and how engineers send signal across oceans. How Light Bulbs Work http://www.youtube.com/watch?v=SQIYXqnq-sU How Does a Microwave Oven Work http://www.youtube.com/watch?v=9_v6uOYWU68 How Lasers Work http://www.youtube.com/watch?v=BP6Cl39TgQk How Fiber Optics Work https://www.youtube.com/watch?v=9VmA2S2XiCo How does a lead-acid battery work https://www.youtube.com/watch?v=ovWoajfIi94 How does a smoke detector work https://www.youtube.com/watch?v=I3FTuu-V8Is How the Smartphone works http://www.youtube.com/watch?v=3wZQ0aZw3LI How an atomic clock works http://www.youtube.com/watch?v=35LHWJOtVCU How digital camera works http://www.youtube.com/watch?v=CrpYqi0r5kY How does a hard drive works https:... -
16. Ray or Geometrical Optics I
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, II (PHYS 201) Geometric optics is discussed as an approximation to wave theory when the wavelength is very small compared to other lengths in the problem (such as the size of openings). Many results of geometric optics involving reflection, refraction (mirrors and lenses) are derived in a unified way using Fermat's Principle of Least Time. 00:00 - Chapter 1. Light as an Electromagnetic Phenomenon 07:17 - Chapter 2. Review of Geometrical (Classical) Optics 21:50 - Chapter 3. Fermat's Principle of Least Time and its Corollaries Complete course materials are available at the Ope... -
How It's Made, Fiber Optics.
The optics of the Clinton-Lynch private meeting
- Order: Reorder
- Duration: 9:45
- Updated: 01 Jul 2016
- views: 6832
Reaction from the 'Special Report' All-Star panel
Reaction from the 'Special Report' All-Star panel
wn.com/The Optics Of The Clinton Lynch Private Meeting
Physics - Optics: Lenses (1 of 4) Converging Lens
- Order: Reorder
- Duration: 4:45
- Updated: 30 Apr 2013
- views: 66980
Visit http://ilectureonline.com for more math and science lectures!
In this video I will show you how to find the location of the image when the object is plac...
Visit http://ilectureonline.com for more math and science lectures!
In this video I will show you how to find the location of the image when the object is placed 100cm away from the converging lens.
wn.com/Physics Optics Lenses (1 Of 4) Converging Lens
Geometric Optics - A Level Physics
- Order: Reorder
- Duration: 36:43
- Updated: 03 May 2012
- views: 64681
Continuing the A Level Physics revision series with geometric optics. The lens formula. Real and virtual images. Convex and Concave lenses and mirrors.
Continuing the A Level Physics revision series with geometric optics. The lens formula. Real and virtual images. Convex and Concave lenses and mirrors.
wn.com/Geometric Optics A Level Physics
Continuing the A Level Physics revision series with geometric optics. The lens formula. Real and virtual images. Convex and Concave lenses and mirrors.
- published: 03 May 2012
- views: 64681
Geometric Optics Intuition with Mirrors and Lenses Concave Convex Diverging Converging | Doc Physics
- Order: Reorder
- Duration: 7:01
- Updated: 01 Mar 2013
- views: 45579
This video has it all. Seriously, all of it. But no math, and no ray tracing. But maybe you just want to understand. Who can blame you?
Just look at the li...
This video has it all. Seriously, all of it. But no math, and no ray tracing. But maybe you just want to understand. Who can blame you?
Just look at the light in that thumbnail bending away from the normal to the surface as it exits the plastic. All of geometric optics with lenses stems from that simple effect.
wn.com/Geometric Optics Intuition With Mirrors And Lenses Concave Convex Diverging Converging | Doc Physics
This video has it all. Seriously, all of it. But no math, and no ray tracing. But maybe you just want to understand. Who can blame you?
Just look at the light in that thumbnail bending away from the normal to the surface as it exits the plastic. All of geometric optics with lenses stems from that simple effect.
- published: 01 Mar 2013
- views: 45579
Physics: optics of lenses and mirrors (1)
- Order: Reorder
- Duration: 10:48
- Updated: 03 May 2009
- views: 187111
Physics: Introduction to geometric optics for lenses and mirrors. Concave, convex, converging, diverging; real, virtual; upright, inverted, magnified, shrunk. S...
Physics: Introduction to geometric optics for lenses and mirrors. Concave, convex, converging, diverging; real, virtual; upright, inverted, magnified, shrunk. Sign conventions for focal length, image distance, object distance, magnification. The lens/mirror equation; the magnification equation. Introduction to ray tracing.
This is a recording of a tutoring session, posted with the student's permission.
These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website:
http://www.freelance-teacher.com/videos.htm
For printable documents containing the "handout" and problems discussed in this video series, go to my website.
For a list of all the available video series, arranged in suggested viewing order, go to my website.
For a playlist containing all the videos in this series, click here:
http://www.youtube.com/watch?v=ORUGwPP-mb4&feature;=PlayList&p;=6D90FB97EF9BA494&index;=0&playnext;=1
(1) The lens/mirror equation. Focal length distance, object distance. Convex, concave, diverging, converging
(2) Image distance. Real, virtual
(3) Continued. Magnified, shrunk
(4) Continued. Upright, inverted
(5) Continued. Magnification equation
(6) Continued. The lens/mirror chart
(7) A problem
(8) Continued. Ray tracing
(9) Continued
(10) Another problem
(11) Continued
tags: educational college student MCAT exam instructional video education
wn.com/Physics Optics Of Lenses And Mirrors (1)
Physics: Introduction to geometric optics for lenses and mirrors. Concave, convex, converging, diverging; real, virtual; upright, inverted, magnified, shrunk. Sign conventions for focal length, image distance, object distance, magnification. The lens/mirror equation; the magnification equation. Introduction to ray tracing.
This is a recording of a tutoring session, posted with the student's permission.
These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website:
http://www.freelance-teacher.com/videos.htm
For printable documents containing the "handout" and problems discussed in this video series, go to my website.
For a list of all the available video series, arranged in suggested viewing order, go to my website.
For a playlist containing all the videos in this series, click here:
http://www.youtube.com/watch?v=ORUGwPP-mb4&feature;=PlayList&p;=6D90FB97EF9BA494&index;=0&playnext;=1
(1) The lens/mirror equation. Focal length distance, object distance. Convex, concave, diverging, converging
(2) Image distance. Real, virtual
(3) Continued. Magnified, shrunk
(4) Continued. Upright, inverted
(5) Continued. Magnification equation
(6) Continued. The lens/mirror chart
(7) A problem
(8) Continued. Ray tracing
(9) Continued
(10) Another problem
(11) Continued
tags: educational college student MCAT exam instructional video education
- published: 03 May 2009
- views: 187111
Shop Talk: Affordable Optics
- Order: Reorder
- Duration: 14:35
- Updated: 05 Jun 2014
- views: 196791
Are affordable sights good? Do they work? Are they a good option for more expensive options? We talk about affordable optics in this episode of Shop Talk.
Copp...
Are affordable sights good? Do they work? Are they a good option for more expensive options? We talk about affordable optics in this episode of Shop Talk.
Copper Custom: http://www.coppercustom.com
MAC on Instagram: http://www.instagram.com/militaryarms
MAC on Facebook: http://www.facebook.com/militaryarms
wn.com/Shop Talk Affordable Optics
Are affordable sights good? Do they work? Are they a good option for more expensive options? We talk about affordable optics in this episode of Shop Talk.
Copper Custom: http://www.coppercustom.com
MAC on Instagram: http://www.instagram.com/militaryarms
MAC on Facebook: http://www.facebook.com/militaryarms
- published: 05 Jun 2014
- views: 196791
Trudeau’s Mexican Visa reversal puts “optics” ahead of Canada’s safety, security and balance sheet
- Order: Reorder
- Duration: 5:26
- Updated: 30 Jun 2016
- views: 4163
Candice Malcolm reports, Justin Trudeau proudly told Canadians that his government will remove the visa requirement for Mexican visitors coming to Canada. Mexic...
Candice Malcolm reports, Justin Trudeau proudly told Canadians that his government will remove the visa requirement for Mexican visitors coming to Canada. Mexican president Enrique Pena-Nieto is in town, and Trudeau wanted to impress his counterpart and make some headlines in the process. But Candice breaks down the numbers and explains why this reversal makes absolutely no sense and will cost Canadians billions of dollars each year. MORE http://www.therebel.media/trudeau_s_mexican_visa_reversal_puts_optics_ahead_of_canada_s_safety_security_and_balance_sheet
http://www.Facebook.com/JoinTheRebel
http://www.Twitter.com/TheRebelTV
"Don't blame me: I voted Conservative"
The t-shirt that says it all -- ONLY from TheRebel.media store!
https://tinyurl.com/votedconservative
wn.com/Trudeau’S Mexican Visa Reversal Puts “Optics” Ahead Of Canada’S Safety, Security And Balance Sheet
Candice Malcolm reports, Justin Trudeau proudly told Canadians that his government will remove the visa requirement for Mexican visitors coming to Canada. Mexican president Enrique Pena-Nieto is in town, and Trudeau wanted to impress his counterpart and make some headlines in the process. But Candice breaks down the numbers and explains why this reversal makes absolutely no sense and will cost Canadians billions of dollars each year. MORE http://www.therebel.media/trudeau_s_mexican_visa_reversal_puts_optics_ahead_of_canada_s_safety_security_and_balance_sheet
http://www.Facebook.com/JoinTheRebel
http://www.Twitter.com/TheRebelTV
"Don't blame me: I voted Conservative"
The t-shirt that says it all -- ONLY from TheRebel.media store!
https://tinyurl.com/votedconservative
- published: 30 Jun 2016
- views: 4163
How Fiber Optics Work
- Order: Reorder
- Duration: 5:36
- Updated: 23 Feb 2014
- views: 400036
How Fiber Optics Work
Bill uses a bucket of propylene glycol to show how a fiber optic cable works and how engineers send signal across oceans.
How Light Bulbs...
How Fiber Optics Work
Bill uses a bucket of propylene glycol to show how a fiber optic cable works and how engineers send signal across oceans.
How Light Bulbs Work http://www.youtube.com/watch?v=SQIYXqnq-sU
How Does a Microwave Oven Work http://www.youtube.com/watch?v=9_v6uOYWU68
How Lasers Work http://www.youtube.com/watch?v=BP6Cl39TgQk
How Fiber Optics Work https://www.youtube.com/watch?v=9VmA2S2XiCo
How does a lead-acid battery work https://www.youtube.com/watch?v=ovWoajfIi94
How does a smoke detector work https://www.youtube.com/watch?v=I3FTuu-V8Is
How the Smartphone works http://www.youtube.com/watch?v=3wZQ0aZw3LI
How an atomic clock works http://www.youtube.com/watch?v=35LHWJOtVCU
How digital camera works http://www.youtube.com/watch?v=CrpYqi0r5kY
How does a hard drive works https://www.youtube.com/watch?v=HYAKiHKPd84
How Nuclear Bombs Work https://www.youtube.com/watch?v=Kf3O8qmkx2s
Anodizing the beauty of corrosion https://www.youtube.com/watch?v=c11nl8XcohE
0:02
William yo
0:08
I find this a fascinating objected to fiber optic cable for a Stereogum
0:13
if I shyness laser pointer down the cable it guides line up together in
0:18
these cables are used to connect our world today
0:23
are capable of transmitting information across countries in oceans
0:26
the first let me show you how it works all I have a bucket that modify with the
0:30
window in front
0:31
them and on the other side
0:35
I put the stopper in this whole right here group
0:41
a bottle of propylene glycol with just a little bit agreement most
0:47
a rinsed and Gracy
0:51
leased and
0:54
now keep your eye on this mom
0:58
little
1:08
that's wonderful the light follows the likud flow
1:11
all the way to the park amazing it does this because if total
1:15
internal reflection as light enters the stream is reflected as soon as it hits
1:20
the interface between here and liquid
1:21
you can see here the first reflection and in the second and the third
1:25
this occurs because there's a difference between the index refractive the guy
1:37
material reflected from a
1:38
or past into and through it the latter we call fraction
1:41
its easier to see from a top you reflection and refraction could happen
1:46
at the same time
1:47
but if the light rain hits the surface at an angle greater than the critical
1:50
angle
1:50
it will be completely reflected in not refracted for this property in like on
1:54
your system as long as a beam hits the surface at an angle greater
1:58
44-point 35 degrees measured from the normal
2:01
he will propagate down the street total internal reflection
2:04
to create the same effect in an optical fiber
2:07
engineers create a core of class usually pure silicon dioxide
2:11
an outside layer called cladding which they also typically make from silicon
2:15
dioxide
2:16
but with bits of boron merger mania to decrease its index of refraction
2:19
a one-percent difference is enough to make a fighter work
2:23
to make such a long thin piece of glass in juniors heat a large class pre for
2:27
its center is the pure core class and the outside the cladding
2:31
they didn't roll or Paula fiber by wind in the mail onto a wheel it speeds up to
2:35
1600 meters per second
2:37
typically these drawing towers are several stories tall
3:21
it could handle some 14,000 simultaneous phone calls
3:25
the essence and how they send information through a fiber optic cable
3:28
is very simple
3:52
we want to make this a digital signal which means discrete values loudness and
3:56
not just any value
3:57
for example a use for bits which means I have 16 possible values for the loudness
4:23
we can think the signal as a series on ones and zeros organized by time
4:27
and it is that sequence that we see in through a fire up the cable
4:30
flash for one and nothing 30 of course the exact method encoding is no one at
4:35
the receiving end
4:36
so it is a trivial matter to decipher the message now
4:39
fibers
4:48
look back on our property in stream here's how the attenuated travels
4:53
you can see here in narrow beam in the bucket the Broughton's a bit when it
4:56
enters the stream
4:57
and then after the first bounce the bean leaves even broader than and entered
5:01
that's because the interface for the air is uneven and the Rays that make up the
5:05
beam strike it slightly different angles
5:07
when that be makes its second reflection those individual raise diverge even more
5:11
Intel by the time it reaches the third bounce many the Rays are no longer the
5:15
critical angle
5:16
Lincoln exit from the side to the stream hear it happens in a few inches
5:20
the cable like having the signal travels a stunning 50 kilometers before it needs
5:24
to be amplified
5:25
absolutely amazing I don't have it the engineer guy
5:32
home
This video is Creative Commons https://creativecommons.org/licenses/by-sa/4.0/ and it is from https://goo.gl/tIuRCA
wn.com/How Fiber Optics Work
How Fiber Optics Work
Bill uses a bucket of propylene glycol to show how a fiber optic cable works and how engineers send signal across oceans.
How Light Bulbs Work http://www.youtube.com/watch?v=SQIYXqnq-sU
How Does a Microwave Oven Work http://www.youtube.com/watch?v=9_v6uOYWU68
How Lasers Work http://www.youtube.com/watch?v=BP6Cl39TgQk
How Fiber Optics Work https://www.youtube.com/watch?v=9VmA2S2XiCo
How does a lead-acid battery work https://www.youtube.com/watch?v=ovWoajfIi94
How does a smoke detector work https://www.youtube.com/watch?v=I3FTuu-V8Is
How the Smartphone works http://www.youtube.com/watch?v=3wZQ0aZw3LI
How an atomic clock works http://www.youtube.com/watch?v=35LHWJOtVCU
How digital camera works http://www.youtube.com/watch?v=CrpYqi0r5kY
How does a hard drive works https://www.youtube.com/watch?v=HYAKiHKPd84
How Nuclear Bombs Work https://www.youtube.com/watch?v=Kf3O8qmkx2s
Anodizing the beauty of corrosion https://www.youtube.com/watch?v=c11nl8XcohE
0:02
William yo
0:08
I find this a fascinating objected to fiber optic cable for a Stereogum
0:13
if I shyness laser pointer down the cable it guides line up together in
0:18
these cables are used to connect our world today
0:23
are capable of transmitting information across countries in oceans
0:26
the first let me show you how it works all I have a bucket that modify with the
0:30
window in front
0:31
them and on the other side
0:35
I put the stopper in this whole right here group
0:41
a bottle of propylene glycol with just a little bit agreement most
0:47
a rinsed and Gracy
0:51
leased and
0:54
now keep your eye on this mom
0:58
little
1:08
that's wonderful the light follows the likud flow
1:11
all the way to the park amazing it does this because if total
1:15
internal reflection as light enters the stream is reflected as soon as it hits
1:20
the interface between here and liquid
1:21
you can see here the first reflection and in the second and the third
1:25
this occurs because there's a difference between the index refractive the guy
1:37
material reflected from a
1:38
or past into and through it the latter we call fraction
1:41
its easier to see from a top you reflection and refraction could happen
1:46
at the same time
1:47
but if the light rain hits the surface at an angle greater than the critical
1:50
angle
1:50
it will be completely reflected in not refracted for this property in like on
1:54
your system as long as a beam hits the surface at an angle greater
1:58
44-point 35 degrees measured from the normal
2:01
he will propagate down the street total internal reflection
2:04
to create the same effect in an optical fiber
2:07
engineers create a core of class usually pure silicon dioxide
2:11
an outside layer called cladding which they also typically make from silicon
2:15
dioxide
2:16
but with bits of boron merger mania to decrease its index of refraction
2:19
a one-percent difference is enough to make a fighter work
2:23
to make such a long thin piece of glass in juniors heat a large class pre for
2:27
its center is the pure core class and the outside the cladding
2:31
they didn't roll or Paula fiber by wind in the mail onto a wheel it speeds up to
2:35
1600 meters per second
2:37
typically these drawing towers are several stories tall
3:21
it could handle some 14,000 simultaneous phone calls
3:25
the essence and how they send information through a fiber optic cable
3:28
is very simple
3:52
we want to make this a digital signal which means discrete values loudness and
3:56
not just any value
3:57
for example a use for bits which means I have 16 possible values for the loudness
4:23
we can think the signal as a series on ones and zeros organized by time
4:27
and it is that sequence that we see in through a fire up the cable
4:30
flash for one and nothing 30 of course the exact method encoding is no one at
4:35
the receiving end
4:36
so it is a trivial matter to decipher the message now
4:39
fibers
4:48
look back on our property in stream here's how the attenuated travels
4:53
you can see here in narrow beam in the bucket the Broughton's a bit when it
4:56
enters the stream
4:57
and then after the first bounce the bean leaves even broader than and entered
5:01
that's because the interface for the air is uneven and the Rays that make up the
5:05
beam strike it slightly different angles
5:07
when that be makes its second reflection those individual raise diverge even more
5:11
Intel by the time it reaches the third bounce many the Rays are no longer the
5:15
critical angle
5:16
Lincoln exit from the side to the stream hear it happens in a few inches
5:20
the cable like having the signal travels a stunning 50 kilometers before it needs
5:24
to be amplified
5:25
absolutely amazing I don't have it the engineer guy
5:32
home
This video is Creative Commons https://creativecommons.org/licenses/by-sa/4.0/ and it is from https://goo.gl/tIuRCA
- published: 23 Feb 2014
- views: 400036
16. Ray or Geometrical Optics I
- Order: Reorder
- Duration: 73:21
- Updated: 24 Mar 2011
- views: 78461
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, II (PHYS 201)
Geometric optics is discussed as an approximation to wave theory when the wavelength is very small compared to other lengths in the problem (such as the size of openings). Many results of geometric optics involving reflection, refraction (mirrors and lenses) are derived in a unified way using Fermat's Principle of Least Time.
00:00 - Chapter 1. Light as an Electromagnetic Phenomenon
07:17 - Chapter 2. Review of Geometrical (Classical) Optics
21:50 - Chapter 3. Fermat's Principle of Least Time and its Corollaries
Complete course materials are available at the Open Yale Courses website: http://open.yale.edu/courses
This course was recorded in Spring 2010.
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.
wn.com/16. Ray Or Geometrical Optics I
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, II (PHYS 201)
Geometric optics is discussed as an approximation to wave theory when the wavelength is very small compared to other lengths in the problem (such as the size of openings). Many results of geometric optics involving reflection, refraction (mirrors and lenses) are derived in a unified way using Fermat's Principle of Least Time.
00:00 - Chapter 1. Light as an Electromagnetic Phenomenon
07:17 - Chapter 2. Review of Geometrical (Classical) Optics
21:50 - Chapter 3. Fermat's Principle of Least Time and its Corollaries
Complete course materials are available at the Open Yale Courses website: http://open.yale.edu/courses
This course was recorded in Spring 2010.
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.
- published: 24 Mar 2011
- views: 78461
How It's Made, Fiber Optics.
- Order: Reorder
- Duration: 4:47
- Updated: 16 Nov 2011
- views: 629073
- published: 16 Nov 2011
- views: 629073
close fullscreen
- Playlist
- Chat
close fullscreen
- Playlist
- Chat
9:45
The optics of the Clinton-Lynch private meeting
Reaction from the 'Special Report' All-Star panel
published: 01 Jul 2016
The optics of the Clinton-Lynch private meeting
The optics of the Clinton-Lynch private meeting
- Report rights infringement
- published: 01 Jul 2016
- views: 6832
4:45
Physics - Optics: Lenses (1 of 4) Converging Lens
Visit http://ilectureonline.com for more math and science lectures!
In this video I will ...
published: 30 Apr 2013
Physics - Optics: Lenses (1 of 4) Converging Lens
Physics - Optics: Lenses (1 of 4) Converging Lens
- Report rights infringement
- published: 30 Apr 2013
- views: 66980
36:43
Geometric Optics - A Level Physics
Continuing the A Level Physics revision series with geometric optics. The lens formula. Re...
published: 03 May 2012
Geometric Optics - A Level Physics
Geometric Optics - A Level Physics
- Report rights infringement
- published: 03 May 2012
- views: 64681
7:01
Geometric Optics Intuition with Mirrors and Lenses Concave Convex Diverging Converging | Doc Physics
This video has it all. Seriously, all of it. But no math, and no ray tracing. But maybe...
published: 01 Mar 2013
Geometric Optics Intuition with Mirrors and Lenses Concave Convex Diverging Converging | Doc Physics
Geometric Optics Intuition with Mirrors and Lenses Concave Convex Diverging Converging | Doc Physics
- Report rights infringement
- published: 01 Mar 2013
- views: 45579
10:48
Physics: optics of lenses and mirrors (1)
Physics: Introduction to geometric optics for lenses and mirrors. Concave, convex, converg...
published: 03 May 2009
Physics: optics of lenses and mirrors (1)
Physics: optics of lenses and mirrors (1)
- Report rights infringement
- published: 03 May 2009
- views: 187111
14:35
Shop Talk: Affordable Optics
Are affordable sights good? Do they work? Are they a good option for more expensive option...
published: 05 Jun 2014
Shop Talk: Affordable Optics
Shop Talk: Affordable Optics
- Report rights infringement
- published: 05 Jun 2014
- views: 196791
5:26
Trudeau’s Mexican Visa reversal puts “optics” ahead of Canada’s safety, security and balance sheet
Candice Malcolm reports, Justin Trudeau proudly told Canadians that his government will re...
published: 30 Jun 2016
Trudeau’s Mexican Visa reversal puts “optics” ahead of Canada’s safety, security and balance sheet
Trudeau’s Mexican Visa reversal puts “optics” ahead of Canada’s safety, security and balance sheet
- Report rights infringement
- published: 30 Jun 2016
- views: 4163
5:36
How Fiber Optics Work
How Fiber Optics Work
Bill uses a bucket of propylene glycol to show how a fiber optic cab...
published: 23 Feb 2014
How Fiber Optics Work
How Fiber Optics Work
- Report rights infringement
- published: 23 Feb 2014
- views: 400036
73:21
16. Ray or Geometrical Optics I
For more information about Professor Shankar's book based on the lectures from this course...
published: 24 Mar 2011
16. Ray or Geometrical Optics I
16. Ray or Geometrical Optics I
- Report rights infringement
- published: 24 Mar 2011
- views: 78461
4:47
How It's Made, Fiber Optics.
published: 16 Nov 2011
How It's Made, Fiber Optics.
How It's Made, Fiber Optics.
- Report rights infringement
- published: 16 Nov 2011
- views: 629073
The optics of the Clinton-Lynch private meeting...
Physics - Optics: Lenses (1 of 4) Converging Lens...
Geometric Optics - A Level Physics...
Geometric Optics Intuition with Mirrors and Lenses...
Physics: optics of lenses and mirrors (1)...
Shop Talk: Affordable Optics...
Trudeau’s Mexican Visa reversal puts “optics” ahea...
How Fiber Optics Work...
16. Ray or Geometrical Optics I...
How It's Made, Fiber Optics....
photo: AP / Wally Santana
Taiwan mistakenly fires supersonic missile towards China
Edit The Times of India 01 Jul 2016
BEIJING. A Taiwanese warship on Friday "mistakenly" fired a supersonic "anti-ship missile" towards China as it celebrated 95th anniversary of the ruling Communist Party amid assertions by President Xi Jinping ruling out independence for Taiwan ... "The missile was launched by operational error ... "We firmly oppose the 'Taiwan independence' secessionist activities," Xi said at the ceremony ... Stay updated on the go with Times of India News App....
photo: AP / Keith Srakocic
What Gives Mr. Trump The Right To Make Promises On Behalf Of The Future?
Edit WorldNews.com 01 Jul 2016
Article by WN.com Correspondent Dallas DarlingPerhaps a more fundamental question than to why politicians change their positions on certain issues is what gives a person the right to make binding decisions on behalf of the future ... Indeed, what would the United States be like if politicians never changed their views on slavery, civil rights or economic policies that included more people ... (Dallas Darling is the author of Politics 501....
photo: AP / Hassan Ammar
Inside Bashar al-Assad's Syrian jail, an Islamist prisoner talks of the regret for his killing
Edit The Independent 01 Jul 2016
Unlike his fellow prisoners, Hamoud Saleh Hamed does not wear leg shackles when he is pushed on a spanking new wheelchair into the Syrian prison governor’s guest room at the Mezze military jail. Impossible, since his trousered right stump and the missing lower half of his left leg mean that the 37-year old Saudi maths teacher from Mecca cannot escape by throwing himself from the second floor window ... ....
photo: UN / Rick Bajornas
How Australia turned its back on the world's refugee crisis
Edit CNN 01 Jul 2016
(CNN)As the world works to resolve a major international refugee crisis, Australia just wants them to go away. At the recent World Humanitarian Summit in Istanbul, U.N. Secretary-General Ban Ki-moon called on the international community to find new long-term solutions for refugees ... There are only a handful of signatories to the Refugee Convention in Southeast Asia, and Australia is one of them. Read More ... Refugees turned back at sea ... ....
photo: AP / Matt Dunham
Tories plunged into civil war as Boris Johnson pulls out of race to become PM
Edit Belfast Telegraph 01 Jul 2016
The Conservative party has collapsed into accusations of betrayal and treachery as the party's first leadership contest in a decade gets under way. Tensions are high after Boris Johnson sensationally dropped out of the race at the first hurdle following a shock intervention against his leadership bid from Cabinet minister Michael Gove. Share Go To ... "He's ripped the Tory party apart ... THERESA MAY ... She said. “My pitch is very simple....
« back to news headlines
Natural flying fox migration assists Bay dispersal (Eurobodalla Shire Council)
Edit Public Technologies 01 Jul 2016
It's been just over a week since flying fox dispersal activities started in Batemans Bay and the Eurobodalla Council dispersal team of around 30 contractors and volunteer staff are now working across three different locations, trying to discourage the flying foxes from roosting when they return from their nightly feeding ... Dispersal noise and lights ......
Outlook of Fiber Optic Cable Market for 2016-2021 in New Global Report
Edit PR Newswire 01 Jul 2016
PUNE, India, July 1, 2016 /PRNewswire/ -- The Global Fiber Optic Cable Industry 2016 Market Research Report provides a comprehensive overview of the worldwide fiber optic cable market with analysis of 2011-2016 historical data as well as 2016-2021 forecasts. Global Fiber Optic Cable... ....
Welcome to our new store (Specsavers Optical Group Limited)
Edit Public Technologies 01 Jul 2016
Specsavers Optical Group Limited) ... The store's same-day service is also supported by the latest software in optical technology that makes the process of dispensing frames smoother and quicker. The new store also has the latest in eye scanning technology in the form of an Optical Coherence Tomographer - a service that previously would only have been available in a hospital....
Maoist hub Balrampur Nets swift network after Idukki
Edit The Times of India 01 Jul 2016
With this, the district, which has a large tribal and rural population, has now inter-connected 340 gram panchayats through optical fibre cable ... This is a giant leap to bridge the digital divide between urban and rural India by linking all gram panchayats in the country through the common platform of optical fibre cable. By lying the optical fibre ......
Automatic guns, radar, sensors: How India is using Israel tech to tackle infiltration on Pakistan border
Edit Indiatoday 01 Jul 2016Unruly scenes witnessed at RU as cops lathicharge ABVP members
Edit The Times of India 01 Jul 2016
Jaipur. Rajasthan University (RU) witnessed unruly scenes on Thursday when police resorted to lathicharge to disperse Akhil Bharatiya Vidyarthi Parishad (ABVP) members. The ABVP members were running a counselling counter and despite several warnings by the RU administration, they did not remove it ... The ABVP members also started protesting against them ... Eventually, the police resorted to lathicharge to disperse them ... RELATED....
Nagpur: Protest against ‘molestation’ at school, 2 teachers held
Edit Indian Express 01 Jul 2016
Protests against the alleged sexual abuse of students by teachers of a school in Yavatmal turned ugly on Wednesday, with an irate crowd ransacking the school and police firing in the air to disperse them ... The two teachers are Yash Borundia, 35, a dance teacher, and Amol Kshirsagar, 32, who teaches craft to pre-primary students ... Share This Article. Related Article ... 6, slideMargin ... The police fired in the air to disperse the crowd ... ....
Specsavers West Bromwich support Comic-Con (Specsavers Optical Group Limited)
Edit Public Technologies 01 Jul 2016A Golden Opportunity at Specsavers Coleraine (Specsavers Optical Group Limited)
Edit Public Technologies 01 Jul 2016
(Source. Specsavers Optical Group Limited). Customers who purchase glasses in Specsavers Coleraine from 3rd-17th July will be a real hit with their friends. Golden ticket ... Great opportunity ... Specsavers Optical Group Limited published this content on 01 July 2016 and is solely responsible for the information contained herein ... (noodl....
Buxton celebrate 20th birthday with circus theme (Specsavers Optical Group Limited)
Edit Public Technologies 01 Jul 2016
(Source. Specsavers Optical Group Limited). The team at Buxton Specsavers celebrated its 20th anniversary and with a fun-filled day for staff and customers in the town on Saturday. Big birthday celebrations ... Specsavers Optical Group Limited published this content on 27 June 2016 and is solely responsible for the information contained herein ... (noodl. 34368609) ....
Eaton Introduces Modular 2-Inch Round and Square LED Pinhole Downlights for Commercial and Residential Spaces (Eaton Corporation plc)
Edit Public Technologies 01 Jul 2016
The compact and uniquely modular recessed downlight system includes a housing, LED module and a choice of a field-interchangeable, round or square, 2-inch aperture pinhole trim, available in multiple aperture styles, optical distributions and finishes ... An optional media holder attaches directly to the optic and accepts industry-standard, 2-inch diameter lens, providing additional creative control....
Students protest against liquor business
Edit Kashmir Observer 01 Jul 2016
SRINAGAR. Students from different colleges Thursday staged a protest against sale of liquor in Kashmir Valley. Both male and female protesting students assembled at Press Enclave here and raised anti-government slogans ... The protesting students later on dispersed peacefully. (CNS) ... ....
OSVR Developer Fund Tries to Open VR Development
Edit TechRaptor 01 Jul 2016
Razer recently announced the launch of the OSVR Developer Fund for their open source virtual reality headsets. The OSVR Developer Fund consists of $5,000,000 to be dispersed to qualifying developers whether they’re from indie studios or larger operations. Qualified applicants will have game codes purchased in bulk by either Razer or one of their participating .. ... ....
- 1
- 2
- 3
- 4
- 5
- Next page »
