Problem 3:Vacuum Diode

In a vaccum diode, electrons are "boiled" off a hot cathode, at potential zero, and accelerated across a gap to the anode, which is held at postitive potential V0. The cloud of moving electrons within the gap (called space charge) quickly builds up to the point where it reduces the feld at the surface of the cathode to zero. From then on a steady current I flows between the plates. Suppose the plates are large relative to the separation (A >> d^2 where A is the area and d the plate separtion), so tht edge effects can be neglected. Then, V, rho (charge density), and v (electron speed) are all functions of x alone. (a)What is Poisson's equation in the region between the plates? (b) Assuming the electrons start from rest at the cathode, what is their speed at point x, where the potential is V(x)? (c) In the steady state, I is independent of x. What, then, is the relation between rho and v? (d) Use these results to obtain a differential equation for B, by eliminating rho and v. (e) Solve this equation for V as a function of x, V0,, and d. What does V(x) look like and what does it look like without space-charge? (f) Find rho and v as a function of x. (g) How can you derive the result I = K V0^(-3/2)? What is the constant K?