A box consists of five grounded metal plates at x=0,x=a,y=0,y=b and z=0. The other plate located...

Consider two grounded conducting plates, located parallel to the x-y plane at z = 0 and...

Consider two grounded conducting plates, located parallel to the x-y plane at z = 0 and z =a. A rectangular tube is created by placing long strips of metal in between the plates, parallel to the x-z plane at y = -b and y = b. The plate at y = b is held at a constant negative potential: -V0, while the plate at y = -b is held at a constant positive potential, V0. Write down a general solution...

A rectangular pipe, running parallel to the z-axis (from -∞ to +∞) has three grounded metal...

A rectangular pipe, running parallel to the z-axis (from -∞ to +∞) has three grounded metal sides, at x = 0, x = a, and y = -a. The fourth side at y = b is at potential V0(y). Find the general formula for the potential within the pipe and leave your coefficients as integrals with an integrand that may depend on V0(y).

A metal plate is located in an xy-plane such that the temperature T at (x,y) is...

A metal plate is located in an xy-plane such that the temperature T at (x,y) is inversely proportional to the distance from the origin, and the temperature at P(3,4) is F 0 200 . Find the rate of change of T at P in the direction of i - j.

A parallel plate capacitor consists of two metal plates, each of area A = 0.015 m^2...

A parallel plate capacitor consists of two metal plates, each of area A = 0.015 m^2 , separated by a vacuum gap d = 0.06 m thick. What is the capacitance of this device? What voltage difference must be applied between the plates if the capacitor is to hold a charge of magnitude Q = 1.0*10^(-9) C on each plate? (dielectric constant = 1) a. 2.2*10^(-12) F and 203 V b. 8.8*10^(-11) F and 363 V c. 2.2*10^(-12) F and...

In a vacuum diode electrons are emitted from a hot grounded cathode (V=0) and they are...

In a vacuum diode electrons are emitted from a hot grounded cathode (V=0) and they are accelerated towards the anode at potential V0 (see Griffiths, prob.2.48). The clouds of emitted electrons build up until they reduce the electric field at the cathode to zero. From then on a steady current I flows between the plates. Let the anode and cathode be much larger than the distance d between them, so that the potential ϕ, electron density ρ and electron velocity...

Suppose X, Y, and Z are random variables with the joint density function f(x, y, z)...

Suppose X, Y, and Z are random variables with the joint density function f(x, y, z) = Ce−(0.5x + 0.2y + 0.1z) if x ≥ 0, y ≥ 0, z ≥ 0, and f(x, y, z) = 0 otherwise. (a) Find the value of the constant C. (b) Find P(X ≤ 0.75 , Y ≤ 0.5). (Round answer to five decimal places). (c) Find P(X ≤ 0.75 , Y ≤ 0.5 , Z ≤ 1). (Round answer to six decimal...

Consider a two-dimensional potential problem for a region bounded by four planes x=0, y=0, and y=1....

Consider a two-dimensional potential problem for a region bounded by four planes x=0, y=0, and y=1. There are no charges inside the bounded region. The boundaries at x=0, x=1, and y=0 are held at zero potential. The potential at the boundary y=1 is given by V(x,1)=V0sin(pi*x) a.) find the electrostatic potential V(x,y) everywhere inside this region by solving the Laplace equation in two dimensions using the method of separation of variables. b.) Calculate the surface charge density on the boundary...

One magnetic dipole is located at the origin (x=0) pointing at z-direction. Another dipole is located...

One magnetic dipole is located at the origin (x=0) pointing at z-direction. Another dipole is located at point x=d on the x-axis pointing at x-direction. At the infinite range, the potential energy is 0. a. What is the potential energy of these dipoles? b. If now the dipole at the origin points now points at the -x direction, and the other dipole remains the same, what is the potential energy?

A charge Q1=-5.00 μC is located at x = 0 and y = 7.00 cm. A...

A charge Q1=-5.00 μC is located at x = 0 and y = 7.00 cm. A second charge Q2 =-4.00 μC is located at x =14.0 cm and y = 0. A third charge Q3 = 2.00 μC is located at the origin. y a) What is the electric field at the origin due to other charges? b) What is the force on the charge Q3 due to other charges? Q1 c) What is the electric potential at the point...

8) An ideal parallel-plate capacitor consists of a set of two parallel plates of area A...

8) An ideal parallel-plate capacitor consists of a set of two parallel plates of area A separated by a very small distance d. When this capacitor is connected to a battery that maintains a constant potential difference between the plates, the energy stored in the capacitor is U0. If the separation between the plates is doubled, how much energy is stored in the capacitor? 8) A) U0 B) 2U0 C) U0/4 D) U0/2 E) 4U0 9) An ideal parallel-plate capacitor...