YOGYAKARTA STATE UNIVERSITY
FAKULTY OF MATHEMATICS AND NATURAL SICENCE
SYLLABI
Faculty
Program
Course/Code
Credits
Smester
Prerequisite/Code
Lecturer
: Matematic and Natural Science
: Physics Education
: Electricity and Magnetism/FIC.319
: Theory = 3 sks, Practice = : 3th (in physics), 4th (physics):
:
I. Course Description
The subject discusses some electricity and magnetism concepts i.e : Coulomb law, the
electric field, Gauss’s law, electric potensial, special techniques in electrostatics,
multipoles expansion, electrostatic field in matter, magnetostatics, magnetostatics field in
matter.
II. Course Standard Competence
Student are able to understand and application the electric and magnetic concepts in
daily problems.
III. Activities
Meeting Basic Compotence
1th
2th
3th
Essential Concept
To understand the Vector Algebra,
vector analysis
The Vector
Differential
Operator
To understand the
Point charge,
development of
Coulomb Law,
electrostatics
continuous charge
system
To understand the
Electric field of
Electric Field
point charge,
Electric field of
continuous charge
Learning
Strategy
Presentation,
discussion,
exercise
Learning
material
A, C
Character
Presentation,
discussion,
exercise
A,B, C
Confindent,
complying,
appreciating
Presentation,
discussion,
exercise
A, B, C
Responsible,
thinking,
logically,
creatively,
inovatively
Responsible,
thinking,
logically,
creatively,
inovatively
Responsible,
thinking,
4th
To understand the
Gauss’s Law
Electric flux,
Derivation Gauss
Law, Application
of Gauss’s Law
Presentation,
discussion,
exercise
A, C
5th, 6th
To understand the
energy and electric
Work done on
moving a point
Presentation,
discussion,
A, B
Responsible,
thinking
potential of charge
system
charge, Electric
Potential energy,
Potential of a point
charge, Potential of
a charge
distribution,
Energy in Static
electric fields,
Capasitor, Energy
stored in capacitor
To understand the The Multipole
electric multipoles
Expantion of scalar
Potential, The
Electric Dipole
Field
exercise
Presentation,
discussion,
exercise
A, C
8th
To understand the
special techniques
for calculating
potentials
Presentation,
discussion,
exercise
A, C
9th
10th
Mid Term
To understand the Current and
Electric Current
Current densities,
Ohm’s law, Power
and Joule’s Law,
Dielectric,
Conductor, semi
conductor, The
equation of
continuity
To understand the Polarization,
Electrostatic fields Electric
in matter
displacement,
linear dielectrics
Presentation,
discussion,
exercise
A, B, C
Responsible,
thinking,
logically,
creatively,
inovatively,
dicipline
Presentation,
discussion,
exercise
A, B
Presentation,
discussion,
exercise
A, B, C
Responsible,
thinking,
logically,
creatively,
inovatively,
dicipline
Responsible,
thinking,
logically,
creatively,
inovatively,
dicipline
7th
11th
12th,
13th,
14th
To understand
Magnetostatic
Laplace’s Equation
in one dimention,
Laplace’s Equation
in two dimention,
Boundary
conditions and
Uniqueness
theorems,
Separation of
Variabel Methode
Definition of
Magnetic
induction,
Magnetic Force on
a moving charge,
Motion of a charge
in magnetic field,
Magnetic force on
logically,
creatively,
inovatively,
dicipline
Responsible,
thinking,
logically,
creatively,
inovatively,
dicipline
Responsible,
thinking,
logically,
creatively,
inovatively,
dicipline
15th
To understand the
electromagnetic
Induction
16th
To understand
magnetostatic in
matter
electric current,
Magnetic field
Produced by closed
current, Ampere’s
law
Faraday’s Law,
Mutual Inductance,
Self Iduction,
Energy in magnetic
field
Presentation,
discussion,
exercise
Magnetization,
Presentation,
Field
of discussion,
magnetized object, exercise
Field H
A, B, C
A, C
Responsible,
thinking,
logically,
creatively,
inovatively,
dicipline
Responsible,
thinking,
logically,
creatively,
inovatively,
dicipline
IV.
Reference
A. D.J. Griffith, 1995, Introduction to Electrodynamics, Second edition,New Delhi
Prentice-Hill of India Privite Limited
B. JR. Reitz & FJ. Milford,1990 Foundation of Electromagnetics Theory, Third
edition, California, Addisson-Wesley Publishing Company Reading
Massachusetts Menlo Park California
C. Roald K. Wangsness,1979, Electromagnetic Fields,2nd edition, New York, John
Wiley &Sons, Inc
V.
Assessment
No
1.
2.
3.
4.
Component
In-Class Participation
Assignments
Mid-Term Exam
Final Exam
Total
Weight (%)
10%
40%
25%
25%
100%
Yogyakarta, November 30th 2013
Validator
Yusman W, M.Si
NIP.196807121993031004
Suyoso, M.Si
NIP.195306101982031003