NE528 Fall 2009 HW#2 (total 80 points) Due Wednesday, September 23 by class time
1. (30 points)
A fully ionized, uniform, hydrogen plasma has a density (ne = ni = n) in orthogonal uniform gravitational and magnetic fields, where the gravitational field is
NE 528 Fall 2009 Mid Term Take Home Exam (Due on Friday November 6 on or before 5:00pm) 20% of total course grade 1) (20 points)
Derive the dispersion relation for electron plasma wave in presence of a steady-state uniform magnetic field where B = z Bo an
NE528 HW#5 Fall 2006 (Total 70 points) Due Monday, November 16 by class time
Problem 1 (20 points) In many plasma devices for plasma-aided manufacturing processes, a mixture of gases, mainly etchant gases mixed with inert gases, forms the plasma. Such mul
NE528 Fall 2009 HW#1 (total 90 points) Due Wednesday, September 9 by class time
1. (10 points) Derive the expression of the Debye length for a pure hydrogen plasma in a steady-state situation, where electron and ion temperatures are not equal, i.e. Te Ti
NE528 Fall 2009 HW#4 (Total 60 points) Due Wednesday, October 21st by class time
1. (30 points)
In obtaining the dispersion relation for electron and ion plasma waves, perturbations were assumed for velocity, density and E-field. Solution requires lineari
NE528 Fall 2009 HW#3 (total 80 points) Due Wednesday, October 7 by class time
1. (40 points) We derived the expression for the current density the diamagnetic current at equilibrium B p condition and have shown that it is given by J = . B2 Now, consider a