ITPH111 : Physics

Department

Department of Computer Networks

Academic Program

Bachelor in Computer Networks

Type

Compulsory

Credits

03

Prerequisite

Overview

Current and voltage: resistance and resistivity, Ohm's law, Power, energy, series and parallel resistance cuircuits, Kirchoff's laws. Waveforms: sinusovoltage: resistance and resistivity, Ohm's law, Power, energy, series and parallel resistance cuircuits, Kirchoff's laws.Waveforms: sinusoidal AC voltage and current, inductance, phase relations and elements of phasor, digital waveforms, digital timing (clock signals, jitter, drift, skew, hysteresis.Semiconductor diodes: semiconductor materials, extrinsic materials (n-type & p-type, energy levels, diode notation, diode equivalent circuits, transition and diffusion capacitance, reverse recovery time, zener diode and LEDs.Diode applications: load line analysis, diode approximation, series diode configurations, parallel and series-parallel configuration, AND/OR gates, half-wave rectification, full-wave rectification, clippers, clampers, voltage multiplier circuits

Intended learning outcomes

By the end of this course, the student will be able to:
  • Distinguish between electric and magnetic fields.
  • The magnetic field of a solenoid - the magnetic flux - explains Gauss's law in magnetism.
  • Analyze the physical cases and phenomena related to the fundamental laws of magnetism and alternating current circuits.
  • Distinguish between AC, RCL, and resonance circuits.
  • Draw the oscillations in the LC and RLC circuits.
  • Compare the coupled circuits and how to apply them.
  • It connects the movement of a wire in a magnetic field and generates a current, as in a dynamo.

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

Course contents

  • Magnetic force & magnetic field
  • Faraday's law of induction
  • Induction & Inductance
  • Maxwell’s Equations and Magnetism of Matter
  • Electromagnetic Oscillations and Alternating Current
  • Alternating current circuits
  • Coupled circuits:

Multimedia over IP networks (ITNT405)
Cloud Computing (ITNT404)
Fundamentals ubiquitous computing (ITNT403)
Wireless Sensor Networks (ITNT402)
Personal Area Networks (ITNT401)
Security Policy and Procedures (ITNT304)
Human Computer Interaction (ITNT302)
Modeling and Performance Evaluation (ITNT301)
Arabic language 1 (ITAR111)
General English1 (ITEL111)
Physics (ITPH111)
Intro to Information Technology (ITGS111)
Problem solving Technic (ITGS113)
Mathematics I (ITMM111)
Arabic language 2 (ITAR122)
Mathematics II (ITMM122)
General English2 (ITEL122)
Introduction to Programming (ITGS122)
System Analysis and Design (ITGS124)
logic Circuit Design (ITGS126)
Introduction to Statistics (ITST211)
Object Oriented Programmin (ITGS211)
Introduction to Software Engineering (ITGS213)
Introduction to Networking (ITGS215)
Discrete Structures (ITGS217)
Numerical analysis (ITGS219)
Information Security (ITGS224)
Foundation of Information Systems (ITGS222)
Computer Architucture & Organization (ITGS223)
Introduction to Internet Programming (ITGS226)
Introduction to Databases (ITGS228)
Data Structure (ITGS220)
Design and Analysis algorithms (ITGS301)
Data Communication (ITNT311)
Local Area Networks (ITNT312)
Networks Programming (ITNT313)
Cryptographic Algorithms and Protocols (ITNT314)
Wireless and Mobile Networks (ITNT324)
Operating System (ITGS302)
Digital Communication (ITNT323)
Network Protocols (ITNT322)
Wide Area Networks (ITNT321)
Scientific Writing (ITGS304)
IT Project Management (ITGS303)
Distributed Systems (ITNT411)
Network Design and Management (ITNT412)
Network QoS (ITNT421)
High speed Networks (ITNT422)
Graduation Project (ITNT500)