25 Optical Instruments Digital Camera with Zoom Lens.

Slides:

Advertisements

Similar presentations

Fisica Generale - Alan Giambattista, Betty McCarty Richardson Copyright © 2008 – The McGraw-Hill Companies s.r.l. 1 Chapter 24: Optical Instruments Combinations.

Advertisements

Physics 2102 Jonathan Dowling Lecture 25 Optics: Images.

CHAPTERS-16 &17 Light 1.Electromagnetic waves 2.Human eye and color 3.Reflection and Image Formation 4.Refraction of Light 5.Lenses and Image Formation.

Ch. 18 Mirrors and Lenses Milbank High School. Sec Mirrors Objectives –Explain how concave, convex, and plane mirrors form images. –Locate images.

Aperture Pupil (stop) Exit Pupil Entrance Pupil.

3. Geometrical Optics. Geometric optics—process of light ray through lenses and mirrors to determine the location and size of the image from a given object.

Small f/number, “fast” system, little depth of focus, tight tolerances on placement of components Large f/number, “slow” system, easier tolerances,

Copyright © 2007, Pearson Education, Inc., Publishing as Pearson Addison-Wesley. The thin-lens equation The camera The human eye The magnifier The microscope.

Physics 1502: Lecture 30 Today’s Agenda Announcements: –Midterm 2: Monday Nov. 16 … –Homework 08: due Friday Optics –Mirrors –Lenses –Eye.

Fig Spherical aberration for a lens

Optical Instruments Chapter 25.

Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University © 2005 J. F. Becker San Jose State University Physics 52.

Converging lenses Diverging Lenses The Lens Equation We can make use of the fact that changing the focal length and position of the object we can change.

Copyright © 2009 Pearson Education, Inc. Chapter 33 Lenses and Optical Instruments.

CHAPTERS-16&17 Light, Color, and Image Formation 1Electromagnetic wave 2Light and Color 3Reflection and Image Formation 4Refraction of Light and Rainbow.

Design of photographic lens Shinsaku Hiura Osaka University.

A. can be focused on a screen. B. can be projected on a wall.

Lenses Chapter 30.

Chapter 18 Mirrors and Lenses Lenses A. Types of Lenses A. Types of Lenses B. Convex Lenses B. Convex Lenses C. Concave Lenses C. Concave Lenses.

LIGHT: Geometric Optics. The Ray Model of Light Light travels in straight lines under a wide variety of circumstances Light travels in straight line paths.

Dr. Andrew Tomasch 2405 Randall Lab

Fundamental of Optical Engineering Lecture 3.  Aberration happens when the rays do not converge to a point where it should be. We may distinguish the.

Magnifiers, Projectors, CamerasPaul Avery (PHY 3400)1 Magnifiers, Projectors, Cameras Applied Optics Paul Avery University of Florida

Copyright © 2010 Pearson Education, Inc. Lecture Outline Chapter 27 Physics, 4 th Edition James S. Walker.

Lecture 15 Refraction, Lenses, Aberrations Chapter 23.4  23.7 Outline Atmospheric Refraction Thin Lenses Aberrations.

Chapter 34 Lecture Eight: Images: II. Image Formed by a Thin Lens A thin lens is one whose thickness is small compared to the radii of curvature For a.

Geometrical Optics Chapter 24 + Other Tidbits 1. On and on and on …  This is a short week.  Schedule follows  So far, no room available for problem.

Lenses Chapter 30. Converging and Diverging Lenses  Lens – a piece of glass which bends parallel rays so that they cross and form an image  Converging.

Lesson 25 Lenses Eleanor Roosevelt High School Chin-Sung Lin.

Lenses. Diverging and Converging Lenses Double Convex lenses focus light rays to a point on the opposite side of the lens. Double Concave lenses diverge.

Chapter 25 Optical Instruments 25-1 The Camera The basic parts of a camera are the light-tight box, lens, and shutter. Shutter speed refers to the speed.

1. What is depth of field? 2. Everything else equal, what effect will each of the following have on depth of field (larger, smaller?): -Larger aperture.

Lecture 18 Optical Instruments

Thin-lens equation: 1/f = 1/d 0 + 1/d i. Magnification equation: h i /h o = d i /d o.

Notes 2-5 OPTICAL TOOLS. Cameras: How do they work? Light from object travels through one or more convex lenses Lens focuses light Puts an image on film.

Chapter 18-2 Lenses.

Physics 203/204 4: Geometric Optics Images formed by refraction Lens Makers Equation Thin lenses Combination of thin lenses Aberration Optical Instruments.

Thin Lenses A lens is an optical device consisting of two refracting surfaces The simplest lens has two spherical surfaces close enough together that we.

Physics 1202: Lecture 23 Today’s Agenda Announcements: –Lectures posted on: –HW assignments, etc.

Optical Instruments.

© 2010 Pearson Education, Inc. PowerPoint ® Lectures for College Physics: A Strategic Approach, Second Edition Chapter 19 Optical Instruments.

Astronomy 1010 Planetary Astronomy Fall_2015 Day-21.

Chapter 18 Mirrors and Lenses. Objectives 18.1 Explain how concave, convex, and plane mirrors form images 18.1 Locate images using ray diagrams, and calculate.

Matrix methods, aberrations & optical systems

19.3 Optical Instruments

Geometric Optics: Mirrors and Lenses. Mirrors with convex and concave spherical surfaces. Note that θ r = θ i for each ray.

Example: What kind of lens must be used, in order to give an erect image 1/5 as large as an object placed 15 cm in front of it? M = -q/p  -q/p=1/5 So.

Spherical Aberration. Rays emanating from an object point that are incident on a spherical mirror or lens at different distances from the optical axis,

Lens Applications & Technologies. airglass airglass.

July © Chuck DiMarzio, Northeastern University ECEG105/ECEU646 Optics for Engineers Course Notes Part 4: Apertures, Aberrations Prof.

Magnifying Glass.

Adapted from presentation by Chuck Patterson, Cheyenne, WY, HS teacher

Chapter 25: Optical Instruments

A farsighted person’s cornea and lens focus images behind the retina

CSE 185 Introduction to Computer Vision

Optical Instruments Or Seeing is Believing.

CHAPTERS-16&17 Light, Color, and Image Formation

Focusing on the big picture.

Brooke Young, Makenna Cooper, Javier Aranguren

Announcements Lab tonight: planetarium

Physics 1202: Lecture 19 Today’s Agenda

32 Optical Images image formation reflection & refraction

Mirrors, Plane and Spherical Spherical Refracting Surfaces

19.1 Mirrors Ray digram Angle of incidence= angle of reflection

7. Optical instruments 1) Cameras

Optics 14.1 Light tends to travel in straight lines. 14.2

LIGHT: Geometric Optics

Presentation transcript:

25 Optical Instruments Digital Camera with Zoom Lens

Camera with Aperture Control

f-numbers (stops)

Angle of View

Digital Camera Mirror Equation

Projector Example: Find the focal length

The Eye Grey Color Sensitive Less sensitive

Defects of Vision

Correction

The Magnifier

Microscope

Telescope

Lens Aberrations Monochromatic aberrations (due to paraxial approximation) Spherical aberration, astigmatism, distortions… Chromatic aberrations (due to dispersion)

Summary: Camera & Projector

Summary: The Eye

Summary: Magnifier, Microscope & Telescope

Homework Problems: 1, 5, 11, 13, 17, 22, 28, 32, 39, 42 Answers to multiple choice problems