A infinite volume charge distribution is placed at 2? > ? > ? with ?? (?)...

A +1 C charge is placed at position (x,y)=(-2 m,0). A +1.5 C charge is placed...

A +1 C charge is placed at position (x,y)=(-2 m,0). A +1.5 C charge is placed at position (x,y)=(2 m, 0). a)  What is the electric potential energy of this charge configuration? b)  What is the electric field (magnitude and direction) at the origin? c) What is the electric field (magnitude and direction) at position (x,y)=(0 m, 1 m)? Please enter your answers in the space below and email your work.

1. A cylinder with a length of L has a volume charge distribution given by ρ=ks...

1. A cylinder with a length of L has a volume charge distribution given by ρ=ks . You need to calculate the electric field at a point along the cylinder axis located a distance z from the end-cap. a) Write down the vector that locates the observation point. (ks and are given constant variables, only change when integrating) b) Write down the vector that locates the charge. c) Calculate the Electric Field as described above

An infinite plane of surface charge density σ = 4.5 nC/m2 lies in the x =...

An infinite plane of surface charge density σ = 4.5 nC/m2 lies in the x = 0.00 m plane, and a second infinite plane of surface charge density σ = 4.50 nC/m2 lies in the x = 0.0200 m plane. Find: a. the electric field at (i) x = 0.0180 m and (ii) x = 0.0500 m b. the electric potential difference between the 2 planes.

A spherical charge distribution has a volume charge density that is a function only of r,...

A spherical charge distribution has a volume charge density that is a function only of r, the distance from the center of the distribution (rho=rho(r)). If rho(r) is given below, determine the electric field as a function of r using Gauss’s law. (A) rho=A/r for 0<r<R where A is a constant; rho=0 for r>R. (B) rho=rho0 (a constant) for 0<r<R; rho=0 for r>R. (C) Integrate the results to obtain an expression for the electric potential subject to the restriction that...

An infinite plane has a charge density of σ = 10 nC/m^2. A charge q =...

An infinite plane has a charge density of σ = 10 nC/m^2. A charge q = 50 10^-19C; of mass m = 5E-28 kg, is released from rest, at a distance d= 8 cm away from the plane. We need to find the speed of the charge after it has moved by a distance r = 2 cm. Ignore the effects of gravity. a) Find the electrostatic field due to the plane of charge. b) Using the relationship between the...

An infinite insulating slab with a uniform volume charge density ρ and a thickness of 2a...

An infinite insulating slab with a uniform volume charge density ρ and a thickness of 2a lies in the xy-plane between z = −a and z = a. Your answer to the following questions should be written in terms of ρ. Make sure you indicate the direction of the field. a) What is the electric field inside the slab, between z = −a and z = a? b) What is the electric field outside of the lab, where z <...

Charge 1 of +3 micro-coulombs is placed at the origin, charge 2 of +16 micro-coulombs is...

Charge 1 of +3 micro-coulombs is placed at the origin, charge 2 of +16 micro-coulombs is placed at x = +0.29 m, y = -0.56 m, charge 3 of -4 micro-coulombs is placed at x = -0.53 m, y = 0 m. Measured counter-clockwise in degrees, what is the angle of the total electric force vector on charge 1?

A thick spherical shell of charge ? and uniform volume charge density ? > 0 is...

A thick spherical shell of charge ? and uniform volume charge density ? > 0 is bounded by radii ?1 and ?2 > ?1. Assume that ? = 0 at infinity. (a) Find the electric potential ?(r) as a function of distance ? from the centre of the distribution for ? > ?2. (b) Find the electric potential ? (?) as a function of distance ? for ?1 < ? < ?2. (c) Find the electric potential ? ? as...

please solve the following :- A. A sphere of radius 3 cm, carries a volume charge...

please solve the following :- A. A sphere of radius 3 cm, carries a volume charge density of 5 − ??2, where d is constant. Find the value of d so the Electric field vector is zero outside the sphere? B.Two conducting spheres of radius 10 cm each. The center-to-center distance between the two spheres is 2 meters. Each sphere carries a charge of 16μC. Find the potential in the middle between the two spheres. C. Two conducting, concentric spheres...

Imagine that Jae has two infinite size metal plates with an opposite charge and has placed...

Imagine that Jae has two infinite size metal plates with an opposite charge and has placed them parallel with respect to each other. Calculate the size of the electric field in terms of the area charge density of the plate. Estimate the same when one of plate has nine times of the charge density of the other. Assume that the permittivity constant is unity. Please explain thoroughly and write neatly!