A sphere with a radius of 0.232 m has a uniform charge density and a total...

A nonconducting solid sphere of radius 9.10 cm has a uniform volume charge density. The magnitude...

A nonconducting solid sphere of radius 9.10 cm has a uniform volume charge density. The magnitude of the electric field at 18.2 cm from the sphere's center is 1.77  103 N/C. (a) What is the sphere's volume charge density? µC/m3 (b) Find the magnitude of the electric field at a distance of 5.00 cm from the sphere's center.

A solid spherical no-conductor of radius 14.5cm has a uniform charge density of p=3.70uC/m**3 (a) Find...

A solid spherical no-conductor of radius 14.5cm has a uniform charge density of p=3.70uC/m**3 (a) Find the magnitude of the electric field af a distance of 8.5 cm from the center of the sphere. B-find the electric field at a distance of 21.0 cm from the center of the sphere C-Now consider a solid sphere conductor of same radius with the same total charge as the non conductor sphere in part (a) Find the electric field at the two distance...

A conducting sphere with a radius of R = 9.3 mm has a uniform and constant...

A conducting sphere with a radius of R = 9.3 mm has a uniform and constant surface charge density of teta= 10 nC / m2. What will be the magnitude of the electric field produced by that sphere at a distance from the center of the sphere der = 23.5 cm?

A solid sphere of radius 50.0 cm has a total positive charge of 25.0 μC uniformly...

A solid sphere of radius 50.0 cm has a total positive charge of 25.0 μC uniformly distributed throughout its volume. (a) Calculate the magnitude of the electric field at a point 10.0 cm from the center of the sphere. (b) Calculate the magnitude of the electric field at a point 75.0 cm from the center of the sphere. c) A proton enters a region containing a uniform electric field of magnitude 1.00 x 10^4 N/C. The separation between the plates...

Charge of uniform volume density ρ = 2.10 µC/m3 fills a nonconducting solid sphere of radius...

Charge of uniform volume density ρ = 2.10 µC/m3 fills a nonconducting solid sphere of radius 5.60 cm. What is the magnitude of the electric field (a) 1.80 cm and (b) 8.80 cm from the sphere's center?

A solid sphere of nonconducting material has a uniform positive charge density ρ (i.e. positive charge...

A solid sphere of nonconducting material has a uniform positive charge density ρ (i.e. positive charge is spread evenly throughout the volume of the sphere; ρ=Q/Volume). A spherical region in the center of the solid sphere is hollowed out and a smaller hollow sphere with a total positive charge Q (located on its surface) is inserted. The radius of the small hollow sphere R1, the inner radius of the solid sphere is R2, and the outer radius of the solid...

A solid nonconducting sphere of radius R = 5.82 cm has a nonuniform charge distribution of...

A solid nonconducting sphere of radius R = 5.82 cm has a nonuniform charge distribution of volume charge density ρ = (13.3 pC/m3)r/R, where r is radial distance from the sphere's center. (a) What is the sphere's total charge? 8.23e-15 C (b) What is the magnitude E of the electric field at r = 0? (Use any variable or symbol stated above along with the following as necessary: ε0.) E = 0     (c) What is the magnitude E of...

An insulating sphere of radius a has charge density p(r) = P0r^2, where P0 is a...

An insulating sphere of radius a has charge density p(r) = P0r^2, where P0 is a constant with appropriate units. The total charge on the sphere is -3q. Concentric with the insulating sphere is a conducting spherical shell with inner radius b > a and utter radius. The total charge on the shell is +2q. Determine a. the magnitude of the electric field at the following locations: (i) r < a, (ii) a < r < b, (iii) b <...

A solid sphere of radius 50.0 cm has a charge of 12.0 uC.  If the charge density...

A solid sphere of radius 50.0 cm has a charge of 12.0 uC.  If the charge density varies with radial distance according to the equation p=kr, where k is a constant: A) find the electric field at 30.0 cm from the sphere's center. B) find the electric field at 60.0 cm from the sphere's center.

1. A point charge - and a conducting solid sphere of charge density +a(C/m?) and radius...

1. A point charge - and a conducting solid sphere of charge density +a(C/m?) and radius a are shown in Figure I (centers of both charges are al 2a distance from the origin o) a) Draw the electric field vectors at the origin 0. (4 pts) b) Determine the direction and magnitude of the NET electric field E, at origin O. (11 pts) +(C/m?) e) Calculate the NET electric potential V at the origin O(10 pts)