Uploaded byjsawyer3434
PPTX, PDF413 views

Sight and wave option a review

The document describes various phenomena related to sight and waves. It discusses the anatomy of the eye including the cornea, pupil, lens, retina, optic nerve, fovea, rods and cones. It then covers topics such as vision in low light, color detection, color blindness, the lens and its focusing abilities, diffraction, resolution, polarization, Brewster's law, the Doppler effect, and gives examples of calculations related to these concepts.

Embed presentation

Download to read offline
Sight and Wave Phenomena Option A
Cornea – a transparent membrane through which light enters Pupil - an aperture through which light enters the eye’s lens - the pupil can increase in size to adjust the intensity of light entering the eye.
Ciliary muscle – ligaments that control the curvature of the lens Retina – located at the back of the eye - light is focused by the lens on the retina where rods and cones convert the light into electrical signals Optic nerve – transmits these electric signals to the brain
Fovea – an area of exceptionally acute vision - each cone is connected to a different nerve fiber Cones are concentrated at the center and rods are found primarily along the edges of the retina
Rods detect light, dark and grays. Scotopic vision – used at night or in low light rods are used distinguishes shapes but not colors, little detail Cones detect color and are only sensitive to bright light. Photopic vision – used during the day, cones are mainly used, shaped and colors are distinguished
There are three types of cones, for short, medium and long wavelengths.
The lens of the eye is a converging lens which means it focuses the light at a point (focal point). It cannot focus on two objects at different distances at the same time. Depth of vision Near point The range of The closest point on which the human eye can focus without straining. About 25 cm distances that can but depends greatly on age. be seen clearly. Far point The largest distance the eye can focus on without straining. Considered to be infinityfor a normal eye (a few meters) Accomodation The ability of the lens to change its shape to focus on different distances.
Cones are sensitive to the primary colors: red, blue and green. Secondary colors (cyan, magenta and yellow) are composed of the primary colors two at a time.
Color blindness – most common kind is the inability to distinguish between red and green. Partial color blindness – one type of cone is not functioning and only those colors dependent on that cone cannot be distinguished. Complete color blindness – two types of cone are not functional and no color can be distinguished.
Diffraction Diffraction is the spreading out of a wave as it goes past an obstacle or through an aperture. When the wavelength is small compared to the aperture the amount of diffraction is minimal.
b is the angle to the first minimum (radians!) is the wavelength of the light used b is the size of the opening
A single slit of width 1.5 m is illuminated with light of wavelength 500.0 nm. Find the angular width of the central maximum. = 39o
Resolution The ability to distinguish between two objects. Because light diffracts, two distant stars that are close together may appear to be one object.
The Rayleigh criterion Two sources are just resolved if the central maximum of one source falls on the first minimum of the other.
Just resolved Unresolved
Well resolved
Diffraction pattern due to a circular opening b Useful in optical devices where b is the diameter of the opening.
The camera of a spy satellite orbiting at 200 km has a diameter of 35 cm. What is the smallest distance this camera can resolve on the surface of the earth (assume a wavelength of 500 nm). b 1.22 x 5 x 10-7)/0.35 = 1.74 x 10–6 rad S=R = 2 x 107 x 1.74 x 10-6 = 0.34 m
The headlights of a car are 2 m apart. The pupil of the human eye has a diameter of about 2 mm. Suppose that light of wavelength 500 nm is being used. What is the maximum distance at which the two headlights are seen as distinct? b = 3 x 10–4 rad R = s/ m
Polarization Only light that is oriented on the same plane as the filter will pass through
Polarization by reflection When light reflects off a surface, the reflected ray is partially polarized (“glare”). The degree to which it is polarized depends on the angle of incidence.
Brewster’s Law The Brewster angle is the angle of incidence that will create reflected light that is 100% polarized. n = tan Calculate the Brewster angle for light incident on the surface of water (n = 1.33). = 53.1o
A polarizer is a material with a molecular structure that only allows a specific orientation to pass through. An analyser is a polarizer that is used to determine if light is polarized.
The intensity (brightness) of light passing through an analyzer is dependent on the angle the polarizer makes with the orientation of the light. I = Iocos2 Calculate in terms of Io the intensity of light passing through an analyzer when = 40o. I = .6 Io Graph of Intensity vs angle.
Doppler effect • The frequency of a wave changes when the source of the waves is in motion or the observer is in motion • Higher pitch when the source is approaching, lower pitch when the source is moving away • Higher pitch when the observer is approaching, lower pitch when the observer is moving away
Moving source The frequency of a car’s horn is 200 Hz when the car is at rest. What frequency will be heard if the car is approaching the observer at 30 m/s? The speed of sound in air is 330 m/s f = 220 Hz
The frequency of a car’s horn is 200 Hz when the car is at rest. What frequency will be heard if an observer is approaching the car at 30 m/s? The speed of sound in air is 330 m/s f = 218 Hz
Light from distant stars is also affected by the Doppler Effect. v/ f f= c f = change in freq f = emitted freq v = speed of source c = speed of light Hydrogen in a distant galaxy emits light of wavelength 658 nm. The light received on earth is measured to be 689 nm. Find the speed of the galaxy. v = 1.4 x 10 7 m/s
Sight and wave option a review
Sight and wave option a review

More Related Content

PPTX
Dispersion and spectrum
byShwetha Pejathaya
 
PPTX
DISPERSION OF WHITE LIGHT THROUGH A GLASS PRISM
bySethu Ram
 
PPTX
Electromagnetic waves option g review
byjsawyer3434
 
PPTX
Microscopy
byRachana Choudhary
 
PPT
Dispersion
byBrajesh Chaudhary
 
PDF
OPTOMETRY - Part V POLARIZATION OF LIGHT
byBurdwan University
 
PPTX
Refraction - Ray Optics - Physics - Light chapter - class 7 and 8
byAbishekThiyagarajan
 
PPTX
Monochromators
byvijaya lakshmi kodali
 
Dispersion and spectrum
byShwetha Pejathaya
 
DISPERSION OF WHITE LIGHT THROUGH A GLASS PRISM
bySethu Ram
 
Electromagnetic waves option g review
byjsawyer3434
 
Microscopy
byRachana Choudhary
 
Dispersion
byBrajesh Chaudhary
 
OPTOMETRY - Part V POLARIZATION OF LIGHT
byBurdwan University
 
Refraction - Ray Optics - Physics - Light chapter - class 7 and 8
byAbishekThiyagarajan
 
Monochromators
byvijaya lakshmi kodali
 

What's hot

PPTX
Diffraction of light
byrjnewman97
 
PDF
Images and Information
byadil raja
 
PPTX
CLASS 8 LIGHT ENERGY
bySouvikChatterjee53
 
PDF
Solar irradiation & spectral signature
bySumant Diwakar
 
PPTX
Monochromators
byAsadAziz28
 
PPTX
Dispersion of light
byIFFATHAYESHA
 
PPTX
Waves light sound test review
byAndrew_Cox
 
PPTX
Physics
byVaishak Sajeev
 
PPT
Chapter 22probe
byDuluth Middle
 
PPTX
Color fundamentals
bysourabhrana21
 
PPTX
light class 8 developed by dsv teachers
byDhatriBhat
 
PPTX
scattering of light-basic
byRivan001
 
PDF
Spectrophotometric Instruments
byAmany Elsayed
 
PPTX
Basic spectrophotometry
bywadhava gurumeet
 
PPT
Dispersion of light
byNishtha Pathak
 
PPTX
Dispersion of light
byMANAVIJEEVALABC
 
PPTX
Luminance and Illuminance
byHrishi Ramesh
 
PDF
Chapter 5 interferometry class notes
byVISHALM580
 
PDF
Optometry - Part VI - Holography
byBurdwan University
 
PPTX
ADVANCES IN METROLOGY
byravikumarmrk
 
Diffraction of light
byrjnewman97
 
Images and Information
byadil raja
 
CLASS 8 LIGHT ENERGY
bySouvikChatterjee53
 
Solar irradiation & spectral signature
bySumant Diwakar
 
Monochromators
byAsadAziz28
 
Dispersion of light
byIFFATHAYESHA
 
Waves light sound test review
byAndrew_Cox
 
Physics
byVaishak Sajeev
 
Chapter 22probe
byDuluth Middle
 
Color fundamentals
bysourabhrana21
 
light class 8 developed by dsv teachers
byDhatriBhat
 
scattering of light-basic
byRivan001
 
Spectrophotometric Instruments
byAmany Elsayed
 
Basic spectrophotometry
bywadhava gurumeet
 
Dispersion of light
byNishtha Pathak
 
Dispersion of light
byMANAVIJEEVALABC
 
Luminance and Illuminance
byHrishi Ramesh
 
Chapter 5 interferometry class notes
byVISHALM580
 
Optometry - Part VI - Holography
byBurdwan University
 
ADVANCES IN METROLOGY
byravikumarmrk
 

Viewers also liked

PPTX
Eva Castillo
bycollection-newstyle
 
PPT
Ib review 4 - simple harmonic motion and waves
byjsawyer3434
 
PPT
Ib review 6 - fields
byjsawyer3434
 
PDF
Take your wellness programs to the next level while maximizing ROI
byHealth Fairs Direct
 
PPT
Avoiding Software Insanity
byjosephnaveen
 
PPT
Ib review 7 - atomic and nuclear
byjsawyer3434
 
PPT
Wellness portals and interactive challenges the next evolution of corporate ...
byHealth Fairs Direct
 
PDF
Hfd corporate health & wellness event - roi report 2011
byHealth Fairs Direct
 
PPT
What you need to implement and take your wellness programs to the next level ...
byHealth Fairs Direct
 
PDF
Corporate Wellness Program Return on Investment Study
byHealth Fairs Direct
 
PPTX
Ap review total
byjsawyer3434
 
PPT
Ch. 20 & 21 notes (acids & bases) teacher
byjclemenzi
 
PPT
Scientific notation
byjsawyer3434
 
PPTX
Wave behaviors reg
byjsawyer3434
 
PPT
Motion and vectors regents
byjsawyer3434
 
PDF
(Synthèse du mémoire) LE FINANCEMENT PARTICIPATIF : Réflexions autour du succ...
byJonathan Doquin
 
PDF
(Mémoire) LE FINANCEMENT PARTICIPATIF : Réflexions autour du succès récent de...
byJonathan Doquin
 
PPTX
SQLSaturday Paris 2014 - SharePoint – de la méfiance jusqu’à l’acceptation
byGUSS
 
PDF
La création de l’univers. french. français
byHarunyahyaFrench
 
PDF
Le prophète moïse (psl). french. français
byHarunyahyaFrench
 
Eva Castillo
bycollection-newstyle
 
Ib review 4 - simple harmonic motion and waves
byjsawyer3434
 
Ib review 6 - fields
byjsawyer3434
 
Take your wellness programs to the next level while maximizing ROI
byHealth Fairs Direct
 
Avoiding Software Insanity
byjosephnaveen
 
Ib review 7 - atomic and nuclear
byjsawyer3434
 
Wellness portals and interactive challenges the next evolution of corporate ...
byHealth Fairs Direct
 
Hfd corporate health & wellness event - roi report 2011
byHealth Fairs Direct
 
What you need to implement and take your wellness programs to the next level ...
byHealth Fairs Direct
 
Corporate Wellness Program Return on Investment Study
byHealth Fairs Direct
 
Ap review total
byjsawyer3434
 
Ch. 20 & 21 notes (acids & bases) teacher
byjclemenzi
 
Scientific notation
byjsawyer3434
 
Wave behaviors reg
byjsawyer3434
 
Motion and vectors regents
byjsawyer3434
 
(Synthèse du mémoire) LE FINANCEMENT PARTICIPATIF : Réflexions autour du succ...
byJonathan Doquin
 
(Mémoire) LE FINANCEMENT PARTICIPATIF : Réflexions autour du succès récent de...
byJonathan Doquin
 
SQLSaturday Paris 2014 - SharePoint – de la méfiance jusqu’à l’acceptation
byGUSS
 
La création de l’univers. french. français
byHarunyahyaFrench
 
Le prophète moïse (psl). french. français
byHarunyahyaFrench
 

Similar to Sight and wave option a review

DOC
Module No. 37
byRajput AbdulWaheed Bhatti
 
PPT
Dtu10e lecture ppt_ch03
byAsma Said,PhD
 
PDF
LIGHT-1.pdfGHFHJGKHLIHUGUJHUKHUGKUHKGUGKHH
byzeeshan116457
 
PPTX
Waves and sound grade 10
byAsuquo Asuquo
 
PPT
Reflection And Refraction
byeliseb
 
PPT
waves&properties
byhaska
 
PPT
Light (1)
byjay gala
 
PPTX
Unit c review
bytristan87
 
PDF
LIGHT.pdf
byguntikarthikkumar
 
PPT
Reflection-refraction.ppt
byHaifaChaoshinAli
 
PPT
Reflection-refraction.ppt
bysimonckt1
 
PPT
IGCSE mathematics 0580 practice questions.ppt
byBilalAwan63
 
PPTX
The world of optics
byRishabh Pahwa
 
PPT
Light and Telescopes
byJohn Wiley
 
PPTX
Optics
byEnast Prince
 
PPT
E M Spectrum Snell S Law And Ray Diagrams
byRegis Komperda
 
PPTX
Refraction of light
bySheikh Amman
 
PPT
CLASS 10 Ch LIGHT Science Ncert Cbse board
bypawansciencetech
 
PPTX
Optical phenomena
bySatish Gupta
 
PPTX
Optical phenomena
bySatish Gupta
 
Module No. 37
byRajput AbdulWaheed Bhatti
 
Dtu10e lecture ppt_ch03
byAsma Said,PhD
 
LIGHT-1.pdfGHFHJGKHLIHUGUJHUKHUGKUHKGUGKHH
byzeeshan116457
 
Waves and sound grade 10
byAsuquo Asuquo
 
Reflection And Refraction
byeliseb
 
waves&properties
byhaska
 
Light (1)
byjay gala
 
Unit c review
bytristan87
 
LIGHT.pdf
byguntikarthikkumar
 
Reflection-refraction.ppt
byHaifaChaoshinAli
 
Reflection-refraction.ppt
bysimonckt1
 
IGCSE mathematics 0580 practice questions.ppt
byBilalAwan63
 
The world of optics
byRishabh Pahwa
 
Light and Telescopes
byJohn Wiley
 
Optics
byEnast Prince
 
E M Spectrum Snell S Law And Ray Diagrams
byRegis Komperda
 
Refraction of light
bySheikh Amman
 
CLASS 10 Ch LIGHT Science Ncert Cbse board
bypawansciencetech
 
Optical phenomena
bySatish Gupta
 
Optical phenomena
bySatish Gupta
 

More from jsawyer3434

PPT
Motion and vectors regents
byjsawyer3434
 
PPT
Motion and vectors regents
byjsawyer3434
 
DOCX
Ap physics info sheet
byjsawyer3434
 
DOC
Regents opening day open house
byjsawyer3434
 
PPT
Metrics and measurement regents
byjsawyer3434
 
DOCX
Physics lab rubric
byjsawyer3434
 
DOC
Regents Physics Pacing Map
byjsawyer3434
 
PPT
Ib review 5 - circuits
byjsawyer3434
 
PPT
Ib review 2 - kinematics
byjsawyer3434
 
PPT
Ib review 1
byjsawyer3434
 
PPT
Nano pbl need to know
byjsawyer3434
 
Motion and vectors regents
byjsawyer3434
 
Motion and vectors regents
byjsawyer3434
 
Ap physics info sheet
byjsawyer3434
 
Regents opening day open house
byjsawyer3434
 
Metrics and measurement regents
byjsawyer3434
 
Physics lab rubric
byjsawyer3434
 
Regents Physics Pacing Map
byjsawyer3434
 
Ib review 5 - circuits
byjsawyer3434
 
Ib review 2 - kinematics
byjsawyer3434
 
Ib review 1
byjsawyer3434
 
Nano pbl need to know
byjsawyer3434
 

Recently uploaded

PDF
Key Tasks Third Party Claims Administrators Perform for Insurers
byDataGenix
 
PPTX
Biochemistry
byDr. Sankalp Bhargava
 
DOCX
Best Background Check Companies for Healthcare in 2025: Top Choices for Accur...
byLiam Davis
 
PPTX
Levothyroxine-Dosing-Principles-and-Clinical-Application.pptx
byamarnath970868
 
PDF
Dr.Pothireddy Surednranath Reddy explains on management of hip pain.pdf
bybvsubbareddy1
 
PPTX
goniometer and range of motion lecture pptx
byraedalobaidi
 
PPTX
2025_CCSN Endometrial Cancer_Talhouk.pptx
byCanadian Cancer Survivor Network
 
PDF
Marburg Viral Disease (MVD) an outbreak at Jinka, Ethiopia 2025
byAbdelaKedir3
 
PPTX
anatomyandphysiologyoftheeye-140730012447-phpapp02.pptx
bygitarilewiskarani
 
PPT
Anaethesia for cardiothoracic surgery.ppt
byummuumaradanzumi
 
PPTX
“A comprehensive and systematic research critique
byMedical PPT
 
PPTX
CONNECTIVE TISSUE (Classification, Structure, Location and Functions).pptx
byPranaliChandurkar2
 
PPTX
Enteric-Typhoid-and-Paratyphoid-Fever-2025-Update.pptx
byamarnath970868
 
PPTX
Rat poison poisoning.pptx................
byHealth Service
 
PPTX
Drugs and Drug Targets: An Overview - Medicinal Chemistry Lecture 4
byAhmed167099
 
PPTX
non syndromic craniosynostosis and deformational plagicephaly.pptx
byIhtisham Ul Haq Awan
 
PDF
Medicinal Plants: Uses, Benefits and Mechanisms of Action
byazamsaleembilgrami
 
PDF
Mechanisms of Drug Action (PH 1.8) - Complete Pharmacology Flowcharts
byShivankan Kakkar
 
PDF
Top 5 Places to Buy Aged LinkedIn Accounts and Should ....pdf
byche3h5jojp4zk2gkv4s
 
PPTX
Adrenal pathology: PHEOCHROMOCYTOMA.pptx
byjerushajoy07
 
Key Tasks Third Party Claims Administrators Perform for Insurers
byDataGenix
 
Biochemistry
byDr. Sankalp Bhargava
 
Best Background Check Companies for Healthcare in 2025: Top Choices for Accur...
byLiam Davis
 
Levothyroxine-Dosing-Principles-and-Clinical-Application.pptx
byamarnath970868
 
Dr.Pothireddy Surednranath Reddy explains on management of hip pain.pdf
bybvsubbareddy1
 
goniometer and range of motion lecture pptx
byraedalobaidi
 
2025_CCSN Endometrial Cancer_Talhouk.pptx
byCanadian Cancer Survivor Network
 
Marburg Viral Disease (MVD) an outbreak at Jinka, Ethiopia 2025
byAbdelaKedir3
 
anatomyandphysiologyoftheeye-140730012447-phpapp02.pptx
bygitarilewiskarani
 
Anaethesia for cardiothoracic surgery.ppt
byummuumaradanzumi
 
“A comprehensive and systematic research critique
byMedical PPT
 
CONNECTIVE TISSUE (Classification, Structure, Location and Functions).pptx
byPranaliChandurkar2
 
Enteric-Typhoid-and-Paratyphoid-Fever-2025-Update.pptx
byamarnath970868
 
Rat poison poisoning.pptx................
byHealth Service
 
Drugs and Drug Targets: An Overview - Medicinal Chemistry Lecture 4
byAhmed167099
 
non syndromic craniosynostosis and deformational plagicephaly.pptx
byIhtisham Ul Haq Awan
 
Medicinal Plants: Uses, Benefits and Mechanisms of Action
byazamsaleembilgrami
 
Mechanisms of Drug Action (PH 1.8) - Complete Pharmacology Flowcharts
byShivankan Kakkar
 
Top 5 Places to Buy Aged LinkedIn Accounts and Should ....pdf
byche3h5jojp4zk2gkv4s
 
Adrenal pathology: PHEOCHROMOCYTOMA.pptx
byjerushajoy07
 

Sight and wave option a review

  • 1.
    Sight and Wave Phenomena Option A
  • 3.
    Cornea – atransparent membrane through which light enters Pupil - an aperture through which light enters the eye’s lens - the pupil can increase in size to adjust the intensity of light entering the eye.
  • 4.
    Ciliary muscle –ligaments that control the curvature of the lens Retina – located at the back of the eye - light is focused by the lens on the retina where rods and cones convert the light into electrical signals Optic nerve – transmits these electric signals to the brain
  • 5.
    Fovea – anarea of exceptionally acute vision - each cone is connected to a different nerve fiber Cones are concentrated at the center and rods are found primarily along the edges of the retina
  • 6.
    Rods detect light,dark and grays. Scotopic vision – used at night or in low light rods are used distinguishes shapes but not colors, little detail Cones detect color and are only sensitive to bright light. Photopic vision – used during the day, cones are mainly used, shaped and colors are distinguished
  • 7.
    There are threetypes of cones, for short, medium and long wavelengths.
  • 8.
    The lens ofthe eye is a converging lens which means it focuses the light at a point (focal point). It cannot focus on two objects at different distances at the same time. Depth of vision Near point The range of The closest point on which the human eye can focus without straining. About 25 cm distances that can but depends greatly on age. be seen clearly. Far point The largest distance the eye can focus on without straining. Considered to be infinityfor a normal eye (a few meters) Accomodation The ability of the lens to change its shape to focus on different distances.
  • 9.
    Cones are sensitiveto the primary colors: red, blue and green. Secondary colors (cyan, magenta and yellow) are composed of the primary colors two at a time.
  • 10.
    Color blindness –most common kind is the inability to distinguish between red and green. Partial color blindness – one type of cone is not functioning and only those colors dependent on that cone cannot be distinguished. Complete color blindness – two types of cone are not functional and no color can be distinguished.
  • 11.
    Diffraction Diffraction is thespreading out of a wave as it goes past an obstacle or through an aperture. When the wavelength is small compared to the aperture the amount of diffraction is minimal.
  • 13.
    b isthe angle to the first minimum (radians!) is the wavelength of the light used b is the size of the opening
  • 14.
    A single slitof width 1.5 m is illuminated with light of wavelength 500.0 nm. Find the angular width of the central maximum. = 39o
  • 15.
    Resolution The ability todistinguish between two objects. Because light diffracts, two distant stars that are close together may appear to be one object.
  • 16.
    The Rayleigh criterion Twosources are just resolved if the central maximum of one source falls on the first minimum of the other.
  • 17.
    Just resolved Unresolved
  • 18.
  • 19.
    Diffraction pattern dueto a circular opening b Useful in optical devices where b is the diameter of the opening.
  • 20.
    The camera ofa spy satellite orbiting at 200 km has a diameter of 35 cm. What is the smallest distance this camera can resolve on the surface of the earth (assume a wavelength of 500 nm). b 1.22 x 5 x 10-7)/0.35 = 1.74 x 10–6 rad S=R = 2 x 107 x 1.74 x 10-6 = 0.34 m
  • 21.
    The headlights ofa car are 2 m apart. The pupil of the human eye has a diameter of about 2 mm. Suppose that light of wavelength 500 nm is being used. What is the maximum distance at which the two headlights are seen as distinct? b = 3 x 10–4 rad R = s/ m
  • 22.
    Polarization Only light thatis oriented on the same plane as the filter will pass through
  • 23.
    Polarization by reflection Whenlight reflects off a surface, the reflected ray is partially polarized (“glare”). The degree to which it is polarized depends on the angle of incidence.
  • 24.
    Brewster’s Law The Brewster angle is the angle of incidence that will create reflected light that is 100% polarized. n = tan Calculate the Brewster angle for light incident on the surface of water (n = 1.33). = 53.1o
  • 25.
    A polarizer isa material with a molecular structure that only allows a specific orientation to pass through. An analyser is a polarizer that is used to determine if light is polarized.
  • 26.
    The intensity (brightness)of light passing through an analyzer is dependent on the angle the polarizer makes with the orientation of the light. I = Iocos2 Calculate in terms of Io the intensity of light passing through an analyzer when = 40o. I = .6 Io Graph of Intensity vs angle.
  • 27.
    Doppler effect • Thefrequency of a wave changes when the source of the waves is in motion or the observer is in motion • Higher pitch when the source is approaching, lower pitch when the source is moving away • Higher pitch when the observer is approaching, lower pitch when the observer is moving away
  • 28.
    Moving source The frequencyof a car’s horn is 200 Hz when the car is at rest. What frequency will be heard if the car is approaching the observer at 30 m/s? The speed of sound in air is 330 m/s f = 220 Hz
  • 29.
    The frequency ofa car’s horn is 200 Hz when the car is at rest. What frequency will be heard if an observer is approaching the car at 30 m/s? The speed of sound in air is 330 m/s f = 218 Hz
  • 30.
    Light from distantstars is also affected by the Doppler Effect. v/ f f= c f = change in freq f = emitted freq v = speed of source c = speed of light Hydrogen in a distant galaxy emits light of wavelength 658 nm. The light received on earth is measured to be 689 nm. Find the speed of the galaxy. v = 1.4 x 10 7 m/s