SlideShare una empresa de Scribd logo

Lec37_2145 (1).pdf

J
Jane360787

Gahsjafb

Educación
1 de 17
Descargar para leer sin conexión
Lecture 37: Lenses and mirrors • Spherical lenses: converging, diverging • Plane mirrors • Spherical mirrors: concave, convex The animated ray diagrams were created by Dr. Alan Pringle.
• object distance s, positive • image distance s’ , • positive if image is on side of outgoing light, i.e. same side of mirror, opposite side of lens: real image • s’ negative if image is on same side of lens/behind mirror: virtual image • focal length f positive for concave mirror and converging lens negative for convex mirror and diverging lens • object height h, positive • image height h’ positive if the image is upright negative if image is inverted • magnification m= h’/h , positive if upright, negative if inverted Terms and sign conventions for lenses and mirrors
Lens equation 1 𝑠 + 1 𝑠′ = 1 𝑓 𝑚 = − 𝑠′ 𝑠 = ℎ′ ℎ magnification 𝑠′ = 𝑓𝑠 𝑠 − 𝑓
thicker in the center • there are focal points on both sides of each lens • focal length f on both sides is the same F F f f Converging and diverging lenses Rays refract towards optical axis Rays refract away from optical axis thinner in the center
Ray 1 is parallel to the axis and refracts through F. Ray 2 passes through F’ before refracting parallel to the axis. Ray 3 passes straight through the center of the lens. object between f and 2f: image is real, inverted, enlarged O F’ F I object outside of 2f: image is real, inverted, reduced object inside of f: image is virtual, upright, enlarged Ray diagram for converging lens
Ray 1 is parallel to the axis and refracts as if from F. Ray 2 heads towards F’ before refracting parallel to the axis. Ray 3 passes straight through the center of the lens. image is always virtual, upright and reduced O F F’ I Ray diagram for diverging lens
• point object A, source of light • reflected rays appear to come from A’  A’ is image of A • image appears to be located behind the mirror  image is virtual Plane mirror
• every point of the object acts as light source • every point has an image • collection of image points form image of the object • image is upright, virtual, same size as object (h’=h), s’=s Image of an extended object
• made from (polished) sections cut from a spherical surface • center of curvature C is center of original sphere C V R • radius of curvature R is radius of sphere, or the distance from V to C. • vertex V is center of mirror segment Principal Axis • principal axis (or optical axis) is line passing through C and V Spherical mirror
Rays parallel to the axis get reflected through a common point the focal point or focus F. Focal length f is distance from V to F. C V F f
F concave convex Concave and convex mirror
Ray 1 is parallel to the axis and reflects through F. Ray 2 passes through F before reflecting parallel to the axis. Ray 3 passes through C and reflects back on itself. F C Ray 4 goes to the vertex V and reflects under the same angle below the optical axis V Ray diagrams
C • image is formed where the outgoing rays cross • object outside center (s>2f)  image is real, inverted, and smaller than object (“telescope”) Real image: outgoing rays do cross. Can be captured on screen or by camera. F Ray Diagrams for Concave Mirrors • two principal rays are sufficient to find image, use third and fourth to check your diagram Example: • object between f and 2f  image is real, inverted, and larger than object (“microscope”)
C • object inside the focal point (s<f)  image is virtual, upright, and larger than object (makeup mirror) Ray 1: parallel to the axis then through F. Ray 2: through F then parallel to the axis. Ray 3: “through” C. F
C F Ray Diagrams for Convex Mirrors Ray 1: parallel to the axis then from F. Ray 2: Vertex. Ray 3: from C. • image is virtual, upright, and smaller than object Ray 4: towards F, then parallel.
Concave mirrors: Shaving and makeup mirrors Solar cookers Satellite dishes (for EM waves) Convex mirrors: Passenger side rear-view mirrors Anti-shoplifting (surveillance) mirrors Christmas tree ornaments
Image formation for mirrors and lenses Type Focal length f Object distance s Image distance s’ Character Orientation Size Concave mirror/ Converging lens f > 0 s > 2f f < s’ < 2f real inverted reduced f < s < 2f s’ > 2f real inverted enlarged s<f s’<0 virtual upright enlarged Convex mirror/ diverging lens f < 0 s > 0 s’ < 0 virtual upright reduced Do not memorize! We can easily get this from the equation!

Recomendados

Concave and convex
Concave and convexConcave and convex
Concave and convex
BonbonArboleda
 
Light full chaptet 10 cbse x
Light full chaptet 10 cbse x Light full chaptet 10 cbse x
Light full chaptet 10 cbse x
RAVNEET NAGI
 
Reflection ray optics light chapter
Reflection ray optics light chapterReflection ray optics light chapter
Reflection ray optics light chapter
AbishekThiyagarajan
 
OPTICS.pptx
OPTICS.pptxOPTICS.pptx
OPTICS.pptx
DRJAWAHERALGAMDI
 
Light reflection and refaraction
Light reflection and refaractionLight reflection and refaraction
Light reflection and refaraction
Rohit Singhal
 
6. 10. lightreflectionandrefraction
6. 10. lightreflectionandrefraction6. 10. lightreflectionandrefraction
6. 10. lightreflectionandrefraction
TeachWithIdea
 
Light
LightLight
Light
MussaOmary3
 
fdocuments.net_optics-lecture-2-book-chapter-3435.ppt
fdocuments.net_optics-lecture-2-book-chapter-3435.pptfdocuments.net_optics-lecture-2-book-chapter-3435.ppt
fdocuments.net_optics-lecture-2-book-chapter-3435.ppt
PedramMaghsoudi4
 

Recomendados

Concave and convex
Concave and convexConcave and convex
Concave and convex
BonbonArboleda
 
Light full chaptet 10 cbse x
Light full chaptet 10 cbse x Light full chaptet 10 cbse x
Light full chaptet 10 cbse x
RAVNEET NAGI
 
Reflection ray optics light chapter
Reflection ray optics light chapterReflection ray optics light chapter
Reflection ray optics light chapter
AbishekThiyagarajan
 
OPTICS.pptx
OPTICS.pptxOPTICS.pptx
OPTICS.pptx
DRJAWAHERALGAMDI
 
Light reflection and refaraction
Light reflection and refaractionLight reflection and refaraction
Light reflection and refaraction
Rohit Singhal
 
6. 10. lightreflectionandrefraction
6. 10. lightreflectionandrefraction6. 10. lightreflectionandrefraction
6. 10. lightreflectionandrefraction
TeachWithIdea
 
Light
LightLight
Light
MussaOmary3
 
fdocuments.net_optics-lecture-2-book-chapter-3435.ppt
fdocuments.net_optics-lecture-2-book-chapter-3435.pptfdocuments.net_optics-lecture-2-book-chapter-3435.ppt
fdocuments.net_optics-lecture-2-book-chapter-3435.ppt
PedramMaghsoudi4
 
04 curved mirrors
04 curved mirrors04 curved mirrors
04 curved mirrors
mrtangextrahelp
 
ch 10 light ppt.pptx
ch 10 light ppt.pptxch 10 light ppt.pptx
ch 10 light ppt.pptx
LUXMIKANTGIRI
 
LENSES.pptx
LENSES.pptxLENSES.pptx
LENSES.pptx
JohnRonaldFerrer
 
Geometric-Optics.ppt
Geometric-Optics.pptGeometric-Optics.ppt
Geometric-Optics.ppt
BeverlyCepeda
 
Converging Mirror And Diverging Mirror
Converging Mirror And Diverging MirrorConverging Mirror And Diverging Mirror
Converging Mirror And Diverging Mirror
Deny Ristanto
 
G10 Science Q2-Week 8- Properties of Mirror.ppt
G10 Science Q2-Week 8- Properties of Mirror.pptG10 Science Q2-Week 8- Properties of Mirror.ppt
G10 Science Q2-Week 8- Properties of Mirror.ppt
RegieBenigno
 
Reflection of light
Reflection of lightReflection of light
Reflection of light
Akshat Kaushik
 
reflectionoflight-160126085039.pdf
reflectionoflight-160126085039.pdfreflectionoflight-160126085039.pdf
reflectionoflight-160126085039.pdf
AnthonyNacaytuna2
 
Geometric optics
Geometric opticsGeometric optics
Geometric optics
Jessabeth Aluba
 
Light - Part 1
Light - Part 1Light - Part 1
Light - Part 1
Gurudatta Wagh
 
12 mirrors
12 mirrors12 mirrors
12 mirrors
Fidelfo Moral
 
Optics
OpticsOptics
Optics
Mr C Jones
 
introduction of mirror and lesson and ray diagramming
introduction of mirror and lesson and ray diagrammingintroduction of mirror and lesson and ray diagramming
introduction of mirror and lesson and ray diagramming
JockerColumna1
 
light
lightlight
light
AnjaliKumari337
 
Module No. 39
Module No. 39Module No. 39
Module No. 39
Rajput Abdul Waheed Bhatti
 
Reflection and refraction
Reflection and refractionReflection and refraction
Reflection and refraction
Dante Billones
 
Lenses
LensesLenses
Lenses
itutor
 
Mirrors and Reflections
Mirrors and ReflectionsMirrors and Reflections
Mirrors and Reflections
Nicole Ynne Estabillo
 
Cl10 light reflaction and refraction
Cl10 light reflaction and refractionCl10 light reflaction and refraction
Cl10 light reflaction and refraction
Priya Jha
 
pdf_20230526_055232_0000.pdf
pdf_20230526_055232_0000.pdfpdf_20230526_055232_0000.pdf
pdf_20230526_055232_0000.pdf
kritdarshil
 
THE MIRROR EQUATION.pptx
THE MIRROR EQUATION.pptxTHE MIRROR EQUATION.pptx
THE MIRROR EQUATION.pptx
Jane360787
 
REVIEWER 4TH.pptx
REVIEWER 4TH.pptxREVIEWER 4TH.pptx
REVIEWER 4TH.pptx
Jane360787
 

Más contenido relacionado

Similar a Lec37_2145 (1).pdf

Converging Mirror And Diverging Mirror
Converging Mirror And Diverging MirrorConverging Mirror And Diverging Mirror
Converging Mirror And Diverging Mirror
Deny Ristanto
 
introduction of mirror and lesson and ray diagramming
introduction of mirror and lesson and ray diagrammingintroduction of mirror and lesson and ray diagramming
introduction of mirror and lesson and ray diagramming
JockerColumna1
 
Reflection and refraction
Reflection and refractionReflection and refraction
Reflection and refraction
Dante Billones
 
Lenses
LensesLenses
Lenses
itutor
 

Similar a Lec37_2145 (1).pdf (20)

04 curved mirrors
04 curved mirrors04 curved mirrors
04 curved mirrors
 
ch 10 light ppt.pptx
ch 10 light ppt.pptxch 10 light ppt.pptx
ch 10 light ppt.pptx
 
LENSES.pptx
LENSES.pptxLENSES.pptx
LENSES.pptx
 
Geometric-Optics.ppt
Geometric-Optics.pptGeometric-Optics.ppt
Geometric-Optics.ppt
 
Converging Mirror And Diverging Mirror
Converging Mirror And Diverging MirrorConverging Mirror And Diverging Mirror
Converging Mirror And Diverging Mirror
 
G10 Science Q2-Week 8- Properties of Mirror.ppt
G10 Science Q2-Week 8- Properties of Mirror.pptG10 Science Q2-Week 8- Properties of Mirror.ppt
G10 Science Q2-Week 8- Properties of Mirror.ppt
 
Reflection of light
Reflection of lightReflection of light
Reflection of light
 
reflectionoflight-160126085039.pdf
reflectionoflight-160126085039.pdfreflectionoflight-160126085039.pdf
reflectionoflight-160126085039.pdf
 
Geometric optics
Geometric opticsGeometric optics
Geometric optics
 
Light - Part 1
Light - Part 1Light - Part 1
Light - Part 1
 
12 mirrors
12 mirrors12 mirrors
12 mirrors
 
Optics
OpticsOptics
Optics
 
introduction of mirror and lesson and ray diagramming
introduction of mirror and lesson and ray diagrammingintroduction of mirror and lesson and ray diagramming
introduction of mirror and lesson and ray diagramming
 
light
lightlight
light
 
Module No. 39
Module No. 39Module No. 39
Module No. 39
 
Reflection and refraction
Reflection and refractionReflection and refraction
Reflection and refraction
 
Lenses
LensesLenses
Lenses
 
Mirrors and Reflections
Mirrors and ReflectionsMirrors and Reflections
Mirrors and Reflections
 
Cl10 light reflaction and refraction
Cl10 light reflaction and refractionCl10 light reflaction and refraction
Cl10 light reflaction and refraction
 
pdf_20230526_055232_0000.pdf
pdf_20230526_055232_0000.pdfpdf_20230526_055232_0000.pdf
pdf_20230526_055232_0000.pdf
 

Más de Jane360787

amazon-rainforest-deforestation-awareness-infographics.pptx
amazon-rainforest-deforestation-awareness-infographics.pptxamazon-rainforest-deforestation-awareness-infographics.pptx
amazon-rainforest-deforestation-awareness-infographics.pptx
Jane360787
 
Applications of electromagnetic spectrum.pptx
Applications of electromagnetic spectrum.pptxApplications of electromagnetic spectrum.pptx
Applications of electromagnetic spectrum.pptx
Jane360787
 

Más de Jane360787 (20)

THE MIRROR EQUATION.pptx
THE MIRROR EQUATION.pptxTHE MIRROR EQUATION.pptx
THE MIRROR EQUATION.pptx
 
REVIEWER 4TH.pptx
REVIEWER 4TH.pptxREVIEWER 4TH.pptx
REVIEWER 4TH.pptx
 
HELPFUL TIPS DURING AN EARTHQUAKE.pptx
HELPFUL TIPS DURING AN EARTHQUAKE.pptxHELPFUL TIPS DURING AN EARTHQUAKE.pptx
HELPFUL TIPS DURING AN EARTHQUAKE.pptx
 
NERVOUS SYSTEM PPT.pptx
NERVOUS SYSTEM PPT.pptxNERVOUS SYSTEM PPT.pptx
NERVOUS SYSTEM PPT.pptx
 
Wavelengths and frequencies of em waves.pptx
Wavelengths and frequencies of em waves.pptxWavelengths and frequencies of em waves.pptx
Wavelengths and frequencies of em waves.pptx
 
BIOMOLECULE.pptx
BIOMOLECULE.pptxBIOMOLECULE.pptx
BIOMOLECULE.pptx
 
BOYLES LAW.pptx
BOYLES LAW.pptxBOYLES LAW.pptx
BOYLES LAW.pptx
 
4 pics 1 word.pptx
4 pics 1 word.pptx4 pics 1 word.pptx
4 pics 1 word.pptx
 
FOSSILS.pptx
FOSSILS.pptxFOSSILS.pptx
FOSSILS.pptx
 
WRITTEN.pptx
WRITTEN.pptxWRITTEN.pptx
WRITTEN.pptx
 
HOTSPOT.pptx
HOTSPOT.pptxHOTSPOT.pptx
HOTSPOT.pptx
 
MUTATION QUIZ.ACTIVITY.pptx
MUTATION QUIZ.ACTIVITY.pptxMUTATION QUIZ.ACTIVITY.pptx
MUTATION QUIZ.ACTIVITY.pptx
 
amazon-rainforest-deforestation-awareness-infographics.pptx
amazon-rainforest-deforestation-awareness-infographics.pptxamazon-rainforest-deforestation-awareness-infographics.pptx
amazon-rainforest-deforestation-awareness-infographics.pptx
 
The DNA .pptx
The DNA .pptxThe DNA .pptx
The DNA .pptx
 
TRANSCRIPTION AND TRANSLATION.pptx
TRANSCRIPTION AND TRANSLATION.pptxTRANSCRIPTION AND TRANSLATION.pptx
TRANSCRIPTION AND TRANSLATION.pptx
 
Applications of electromagnetic spectrum.pptx
Applications of electromagnetic spectrum.pptxApplications of electromagnetic spectrum.pptx
Applications of electromagnetic spectrum.pptx
 
BOUNDARY.pptx
BOUNDARY.pptxBOUNDARY.pptx
BOUNDARY.pptx
 
A_Seaweed_Divided_0.ppt
A_Seaweed_Divided_0.pptA_Seaweed_Divided_0.ppt
A_Seaweed_Divided_0.ppt
 
2018_12_5_coralspost (1).pptx
2018_12_5_coralspost (1).pptx2018_12_5_coralspost (1).pptx
2018_12_5_coralspost (1).pptx
 
DentalNeuro_04.ppt
DentalNeuro_04.pptDentalNeuro_04.ppt
DentalNeuro_04.ppt
 

Último

Gardella_Mateo_IntellectualProperty.pdf.
Gardella_Mateo_IntellectualProperty.pdf.Gardella_Mateo_IntellectualProperty.pdf.
Gardella_Mateo_IntellectualProperty.pdf.
MateoGardella
 
The basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxThe basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptx
heathfieldcps1
 
Making and Justifying Mathematical Decisions.pdf
Making and Justifying Mathematical Decisions.pdfMaking and Justifying Mathematical Decisions.pdf
Making and Justifying Mathematical Decisions.pdf
Chris Hunter
 

Último (20)

psychiatric nursing HISTORY COLLECTION .docx
psychiatric nursing HISTORY COLLECTION .docxpsychiatric nursing HISTORY COLLECTION .docx
psychiatric nursing HISTORY COLLECTION .docx
 
Introduction to Nonprofit Accounting: The Basics
Introduction to Nonprofit Accounting: The BasicsIntroduction to Nonprofit Accounting: The Basics
Introduction to Nonprofit Accounting: The Basics
 
PROCESS RECORDING FORMAT.docx
PROCESS RECORDING FORMAT.docxPROCESS RECORDING FORMAT.docx
PROCESS RECORDING FORMAT.docx
 
Sports & Fitness Value Added Course FY..
Sports & Fitness Value Added Course FY..Sports & Fitness Value Added Course FY..
Sports & Fitness Value Added Course FY..
 
Gardella_Mateo_IntellectualProperty.pdf.
Gardella_Mateo_IntellectualProperty.pdf.Gardella_Mateo_IntellectualProperty.pdf.
Gardella_Mateo_IntellectualProperty.pdf.
 
The basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxThe basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptx
 
Key note speaker Neum_Admir Softic_ENG.pdf
Key note speaker Neum_Admir Softic_ENG.pdfKey note speaker Neum_Admir Softic_ENG.pdf
Key note speaker Neum_Admir Softic_ENG.pdf
 
Making and Justifying Mathematical Decisions.pdf
Making and Justifying Mathematical Decisions.pdfMaking and Justifying Mathematical Decisions.pdf
Making and Justifying Mathematical Decisions.pdf
 
SOCIAL AND HISTORICAL CONTEXT - LFTVD.pptx
SOCIAL AND HISTORICAL CONTEXT - LFTVD.pptxSOCIAL AND HISTORICAL CONTEXT - LFTVD.pptx
SOCIAL AND HISTORICAL CONTEXT - LFTVD.pptx
 
Web & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfWeb & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdf
 
APM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across SectorsAPM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across Sectors
 
Mattingly "AI & Prompt Design: The Basics of Prompt Design"
Mattingly "AI & Prompt Design: The Basics of Prompt Design"Mattingly "AI & Prompt Design: The Basics of Prompt Design"
Mattingly "AI & Prompt Design: The Basics of Prompt Design"
 
Unit-IV; Professional Sales Representative (PSR).pptx
Unit-IV; Professional Sales Representative (PSR).pptxUnit-IV; Professional Sales Representative (PSR).pptx
Unit-IV; Professional Sales Representative (PSR).pptx
 
Advance Mobile Application Development class 07
Advance Mobile Application Development class 07Advance Mobile Application Development class 07
Advance Mobile Application Development class 07
 
ICT Role in 21st Century Education & its Challenges.pptx
ICT Role in 21st Century Education & its Challenges.pptxICT Role in 21st Century Education & its Challenges.pptx
ICT Role in 21st Century Education & its Challenges.pptx
 
Mixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
Mixin Classes in Odoo 17 How to Extend Models Using Mixin ClassesMixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
Mixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
 
Paris 2024 Olympic Geographies - an activity
Paris 2024 Olympic Geographies - an activityParis 2024 Olympic Geographies - an activity
Paris 2024 Olympic Geographies - an activity
 
Application orientated numerical on hev.ppt
Application orientated numerical on hev.pptApplication orientated numerical on hev.ppt
Application orientated numerical on hev.ppt
 
This PowerPoint helps students to consider the concept of infinity.
This PowerPoint helps students to consider the concept of infinity.This PowerPoint helps students to consider the concept of infinity.
This PowerPoint helps students to consider the concept of infinity.
 
Unit-IV- Pharma. Marketing Channels.pptx
Unit-IV- Pharma. Marketing Channels.pptxUnit-IV- Pharma. Marketing Channels.pptx
Unit-IV- Pharma. Marketing Channels.pptx
 

Lec37_2145 (1).pdf

  • 1. Lecture 37: Lenses and mirrors • Spherical lenses: converging, diverging • Plane mirrors • Spherical mirrors: concave, convex The animated ray diagrams were created by Dr. Alan Pringle.
  • 2. • object distance s, positive • image distance s’ , • positive if image is on side of outgoing light, i.e. same side of mirror, opposite side of lens: real image • s’ negative if image is on same side of lens/behind mirror: virtual image • focal length f positive for concave mirror and converging lens negative for convex mirror and diverging lens • object height h, positive • image height h’ positive if the image is upright negative if image is inverted • magnification m= h’/h , positive if upright, negative if inverted Terms and sign conventions for lenses and mirrors
  • 3. Lens equation 1 𝑠 + 1 𝑠′ = 1 𝑓 𝑚 = − 𝑠′ 𝑠 = ℎ′ ℎ magnification 𝑠′ = 𝑓𝑠 𝑠 − 𝑓
  • 4. thicker in the center • there are focal points on both sides of each lens • focal length f on both sides is the same F F f f Converging and diverging lenses Rays refract towards optical axis Rays refract away from optical axis thinner in the center
  • 5. Ray 1 is parallel to the axis and refracts through F. Ray 2 passes through F’ before refracting parallel to the axis. Ray 3 passes straight through the center of the lens. object between f and 2f: image is real, inverted, enlarged O F’ F I object outside of 2f: image is real, inverted, reduced object inside of f: image is virtual, upright, enlarged Ray diagram for converging lens
  • 6. Ray 1 is parallel to the axis and refracts as if from F. Ray 2 heads towards F’ before refracting parallel to the axis. Ray 3 passes straight through the center of the lens. image is always virtual, upright and reduced O F F’ I Ray diagram for diverging lens
  • 7. • point object A, source of light • reflected rays appear to come from A’  A’ is image of A • image appears to be located behind the mirror  image is virtual Plane mirror
  • 8. • every point of the object acts as light source • every point has an image • collection of image points form image of the object • image is upright, virtual, same size as object (h’=h), s’=s Image of an extended object
  • 9. • made from (polished) sections cut from a spherical surface • center of curvature C is center of original sphere C V R • radius of curvature R is radius of sphere, or the distance from V to C. • vertex V is center of mirror segment Principal Axis • principal axis (or optical axis) is line passing through C and V Spherical mirror
  • 10. Rays parallel to the axis get reflected through a common point the focal point or focus F. Focal length f is distance from V to F. C V F f
  • 12. Ray 1 is parallel to the axis and reflects through F. Ray 2 passes through F before reflecting parallel to the axis. Ray 3 passes through C and reflects back on itself. F C Ray 4 goes to the vertex V and reflects under the same angle below the optical axis V Ray diagrams
  • 13. C • image is formed where the outgoing rays cross • object outside center (s>2f)  image is real, inverted, and smaller than object (“telescope”) Real image: outgoing rays do cross. Can be captured on screen or by camera. F Ray Diagrams for Concave Mirrors • two principal rays are sufficient to find image, use third and fourth to check your diagram Example: • object between f and 2f  image is real, inverted, and larger than object (“microscope”)
  • 14. C • object inside the focal point (s<f)  image is virtual, upright, and larger than object (makeup mirror) Ray 1: parallel to the axis then through F. Ray 2: through F then parallel to the axis. Ray 3: “through” C. F
  • 15. C F Ray Diagrams for Convex Mirrors Ray 1: parallel to the axis then from F. Ray 2: Vertex. Ray 3: from C. • image is virtual, upright, and smaller than object Ray 4: towards F, then parallel.
  • 16. Concave mirrors: Shaving and makeup mirrors Solar cookers Satellite dishes (for EM waves) Convex mirrors: Passenger side rear-view mirrors Anti-shoplifting (surveillance) mirrors Christmas tree ornaments
  • 17. Image formation for mirrors and lenses Type Focal length f Object distance s Image distance s’ Character Orientation Size Concave mirror/ Converging lens f > 0 s > 2f f < s’ < 2f real inverted reduced f < s < 2f s’ > 2f real inverted enlarged s<f s’<0 virtual upright enlarged Convex mirror/ diverging lens f < 0 s > 0 s’ < 0 virtual upright reduced Do not memorize! We can easily get this from the equation!