|Delivery Type||Delivery length / details|
|Seminars / Tutorials||3 Hours Tutorial|
|Assessment Type||Assessment length / details||Proportion|
|Semester Exam||2 Hours written end of semester examination||80%|
|Semester Assessment||Continuous Assessment - tests in weeks 6 and 11||20%|
|Supplementary Exam||2 Hours written examination||100%|
On successful completion of this module students should be able to:
Calculate the force on a charged particle in electric and magnetic fields.
Describe the motion of a charged particle in a uniform electric field.
Calculate the potential of a system of charged particles.
Describe the structure and function of resistors and capacitors.
Carry out calculations on capacitors involving stored energy, charging and discharging.
Calculate internal resistance, energy and power in DC circuits.
Calculate DC currents and voltages in resistor networks using Kirchoff's rules.
Calculate reactance and impedance in AC circuits.
Use phasor diagrams, vector methods and complex numbers to analyse AC circuits.
Apply conditions for resonance in RCL circuits
The concept of electric charge is introduced and electric force, field and potential are explained in terms of Coulomb's Law with illustrative examples. The flow of charge is considered and this leads to Ohm's Law and the concept of resistance. Capacitors and resistors are examined and examples are given of their use in electric circuits. A brief introduction to magnetism.
Positive and negative charge
Conductors, insulators and semiconductors
Electric field, potential and equipotentials
Force on and motion of charged particle in a uniform electric field
Charge and discharge of capacitors, time constant and half life decay
Capacitors - construction, series and parallel combinations, stored energy.
Current and resistance;resistance, Ohm's Law, resistivity, ammeters, voltmeters
DC circuits - resistors in series and parallel, internal resistance, energy, power
Potential dicider circuits
AC currents in resistive, capacitive and inductive circuits; reactance and impedence
Analysis of AC circuits using phasor diagrams, vector methods and complex numbers
Power and phase angle
RCL circuits in series and parallel, conditions for resonance.
Force on Particle
Reading ListEssential Reading
Nelkon, Michael. (1987.) Advanced level physics /Michael Nelkon, Philip Parker. 6th ed. Heinemann Educational Primo search
This module is at CQFW Level 4