PH110 : General Physics І (Electricity )

Department

Academic Program

Type

Compulsory

Credits

Prerequisite

Overview

This course is concerned with knowing the foundations and concepts of electrostatics and translating these concepts into mathematical laws and relationships by covering a range of topics represented in Coulomb’s law, electric field strength, Gauss’s law, capacitors, Ohm’s law, electric current circuits, and their analysis methods.

Intended learning outcomes

By studying this course the student will be able to:

1- Coulomb's law is used.

2- It connects the concept of electric field and electric force.

3- Calculate the electric field.

4- Calculate the electric potential and electric potential energy of point charges and connected charge distributions.

5- Calculate the electrical capacitance of different types of capacitors.

6- Analyze electrical circuits using Ohm's law and Kirchhoff's law.

Teaching and learning methods

Lectures.
Solve problems and discuss various exercises.

Methods of assessments

Written first midterm exam 25%
Written second midterm exam 25%
Written final exam 50%
A passing score of 50% or more
The total assessment of the course is 100%.

Course contents

Week Due	exercises	Lectures	contact hours	Topics List
1	2	3	5	Electric charge and Coulomb's law
2	4	6	10	The electric field of electric charges and its applications
1	2	3	5	The electric field of connected charges
1	2	3	5	The motion of a charged particle in an electric field and Dipole
1	2	3	5	Charge density (linear-surface and volumetric), electric flux
1	2	3	5	Gauss's law and its applications
1	2	3	5	The electric potential of point and continuous charges
1	2	3	5	POTENTIAL DUE TO AN ELECTRIC DIPOLE
1	2	3	5	Capacitance and capacitors
1	2	3	5	Applications on capacitance and energy stored in a capacitor
1	2	3	5	The current intensity and electric current density
1	2	3	5	Ohm's Law and Connection of Resistors
1	2	3	5	Simple electrical circuit and Kirchhoff's law

Introduction to Atmospheric Science (AT111)
Arabic language 1 (AR051)
General Physics І (Electricity ) (PH110)
General Chemistry 1 (CH101)
Mathematics 1 (MA100)
English Language 1 (EL101)
Principles of Atmospheric Science (AT112)
General Physics 2 (PH112)
General chemistry 2 (CH102)
General Chemistry 2 Laboratory (CH103)
Calculus and Analysis principle 2 (MA102)
Organic chemistry I (CH231)
Thermodynamics and Gases (CH241)
Ordinary Differential Equations (MA201)
Fundamentals of Inorganic Chemistry (CH221)
Analytical Chemistry(I) (CH211)
Practical Analytical Chemistry (CH213)
Methods for preparing inorganic compounds I (practical) (CH223)
Organic chemistry II (CH232)
Practical Analytical Chemistry, (CH214)
Thermodynamics and solutions (CH242)
Chemistry of Main Group Elements (CH222)
Analytical Chemistry(II) (CH212)
English language 2 (EL102)
Practical Analytical Chemistry (III) (CH013)
Organic chemistry Practical (CH031)
Industrial Chemistry (CH461)
Electrochemistry (CH341)
Thermodynamics and Solutions Lab (CH243)
Analytical Chemistry(III) (CH311)
Fundamentals of transition elements (CH321)
organic chemistry 3 (CH331)
Practical Industrial chemistry I (CH463)
Practical Analytical Chemistry(IV) (CH014)
Analytical Chemistry(IV) (CH312)
Transition elements chemistry studies (CH322)
Organic chemistry III Practical (CH333)
Biochemistry (CH451)
Organic chemistry IV (CH332)
Quantum chemistry (CH342)
Electrochemistry Lab (CH345)
Biochemistry lab I (CH453)
Molecular Spectroscopy (CH343)
Organic chemistry IV Practical (CH033)
Solid State Chemistry (CH344)
Practical Analytical Chemistry(V), (CH414)
Organometallic Chemistry (CH421)
Preparation and Methods for detection of inorganic compounds (CH424)
Industrial Chemistry (II) (CH462)
Analytical Chemistry(V) (CH441)
Nuclear chemistry (CH323)
Industrial Chemistry (II) Lab (CH464)
Kinetic Chemistry lab (CH043)
Kinetic Chemistry (CH442)