Download Subject Matter Code/Credit Prerequisite Competences

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
Document related concepts
no text concepts found
Transcript 
Subject Matter
: Geometrical and Physical Optics
Code/Credit
: FIS 318/3
Prerequisite
: Vibration and wave
Competences
: After completing this course, student should have
ability and be able to understand, analyze and to achieve
concepts of geometrical and physical optics in daily
activities.
Description
: This course will give fundamental concepts about
nature of light, geometrical optics (reflection, refraction,
thin and cylindrical lens) and physical optics
(interference, diffraction and polarization of light).
References:
Pedrotti, Frank L., Pedrotti, Leno M., and Pedrotti, Leno S. 2007. Introduction to
Optics 3rd edition. Pearson Addison Willet: USA
Akira Hirose, 1985. The Wave Phenimena. John Willey and Sons.
Boas L May, 1983. Mathematical Methods in The Physical Sciences. New York :
John Willey and Sons.
Jenkins/White, 1985. Fundamental of Optics. Tokyo : Mc Graw Hill Company
M. O. Chia 1996. Gelombang . Bandung : FMIPA ITB
Sahara Muslim 2002. Gelombang dan Optik. Yogyakarta DIKTI FMIPA UGM
Tofik M. 2004. Gelombang dan Optik : Bandung: FMIPA UPI JICA
Learning Activities
Day
1,2
3,4
5
Section
Introduction
Law of reflection
Reflection
Part
Activities
a. Nature of light
b. Brief history of light
c. Particles and photons
d. The Electromagnetic
spectrum
Discussion,
assignments
test
and
a. Law of reflection
b. Snell’s Law
c. Huygen’s principle
d. Fermat’s principle
a. Reflection in plane mirrors
b. Reflection at a spherical
surface
Discussion,
assignments
test
and
Discussion,
assignments
test
and
6,7
Refraction
8
9
Thin Lenses
10
Cylindrical lenses
11,12
13
14,15
16
a. Refraction through plane
surfaces
b. Refraction at a spherical
surface
Midtest
a. Introduction to thin lenses
b. Newtonian equation for the
thin lenses
a. Concave cylindrical lenses
b. Convex cylindrical lenses
Interference of
light
a. Two-beam interference
b. Newtons’ Rings
Diffraction
a. Fraunhofer diffraction
b. The Diffraction grating
c. Fresnel diffraction
a. Mathematical
representation of polarized
light
b. Polarization by selective
absorption
c. Polarization by scattering
d. Double refraction
a. Eyes
b. Prisms
c. The Camera
d. Microscope
e. Telescope
Polarization
Optical
Instrumentation
Evaluation:
Components
Assignments
Attendance
Participation
Midterm examination
Final Examination
Portion (%)
20%
10%
20%
25%
25%
Discussion,
assignments
test
Discussion,
assignments
test
Discussion,
assignments
test
Discussion,
assignments
test
Discussion,
assignments
test
Discussion,
assignments
test
Discussion,
assignments
test
and
and
and
and
and
and
and
Related documents
Applied Optics - Purdue College of Engineering
Applied Optics - Purdue College of Engineering
STUDY SKILLS: HOW TO BEGIN YOUR CAREER JOURNEY ON
STUDY SKILLS: HOW TO BEGIN YOUR CAREER JOURNEY ON
Phys342_Syl.pdf
Phys342_Syl.pdf
In this example there is a link to Assignments in...
In this example there is a link to Assignments in...
Emergency Notice Regarding Workshop on Data Mining
Emergency Notice Regarding Workshop on Data Mining
PHYS 101 Conceptual Physics Lab
PHYS 101 Conceptual Physics Lab
Data Structures
Data Structures
Document 72383
Document 72383
Introduction to Optics Frank L. Pedrotti Leno M. Pedrotti Leno S
Introduction to Optics Frank L. Pedrotti Leno M. Pedrotti Leno S
Chapter 25
Chapter 25
Optics and Optoelectronics
Optics and Optoelectronics
ECE 4362: Modern Optics for Engineers Credit / Contact hours: Course coordinator:
ECE 4362: Modern Optics for Engineers Credit / Contact hours: Course coordinator: