1. A total charge of -6.5 microCoulomb is evenly distributed in a conductive sphere with a...

A point charge q = +3 µC is at the center of a sphere of radius...

A point charge q = +3 µC is at the center of a sphere of radius 0.9 m. (a) Find the surface area of the sphere. ___m2 (b) Find the magnitude of the electric field at points on the surface of the sphere. ___N/C (c) What is the flux of the electric field due to the point charge through the surface of the sphere? ___ N · m2/C (e) What is the net flux through a cube of side 2...

A) A 1 nano Coulomb spherical charge has a radius of 10 centimeters. The charge is...

A) A 1 nano Coulomb spherical charge has a radius of 10 centimeters. The charge is uniformly distributed throughout the volume of the sphere.   Find the electric flux through a spherical gaussian surface centered on the charge with a radius of 1 meter. Answer in units of (N*m^2)/C. B) Same as part A, but let the Gaussian surface be a 1 meter cube centered on the charge. C) What is the strength of the E field on the surface of...

A total charge of 20.0 nC is distributed uniformly through an insulating sphere with a radius...

A total charge of 20.0 nC is distributed uniformly through an insulating sphere with a radius of 6.00 cm. The total electric flux (in N m2/C) through a concentric sphere with a radius of 3.00 cm is: K = 9 x 10+9 N.m2.C-2 , ε0 = 8.85 x 10-12 C2.N-1.m-2

An excess positive charge Q is uniformly distributed throughout the volume of an insulating solid sphere...

An excess positive charge Q is uniformly distributed throughout the volume of an insulating solid sphere of radius R = 5.0cm. The magnitude of the bold E with bold rightwards harpoon with barb upwards on top-field at a point 10.0cm from the center of the sphere is given to be 4.5x10^6 N/C. a. What is the value (in units of μC) of charge Q? b. What is the magnitude of the -field at the surface of the sphere? c. What...

A charge of +1.00 millicoulomb is evenly sprayed over the surface of an insulating sphere of...

A charge of +1.00 millicoulomb is evenly sprayed over the surface of an insulating sphere of radius 10 cm whose center is at position -1.00 m i . A point charge of +1.00 millicoulomb is at position +1.00 m i . A point charge of -1.00 millicoulomb is at the origin. What is the ratio of the magnitude of the electrostatic force due to the conducting sphere on the negative charge to the magnitude of the electric force due to...

A total charge of 25.0 nC is distributed uniformly through an insulating sphere with a radius...

A total charge of 25.0 nC is distributed uniformly through an insulating sphere with a radius of 18.00 mm. The total electric flux (in N m2/C) through a concentric sphere with a radius of 9.00 mm

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

A sphere with a radius of 0.232 m has a uniform charge density and a total charge of 70.5 mC. What is the magnitude of the electric field at each of the following locations? (a) a distance of 0.150 m from the center N/C (b) a distance of 0.232 m from the center N/C (c) a distance of 0.550 m from the center N/C

2. Electric potential of two concentric spheres. Two hollow conductive spheres of a = 10 cm...

2. Electric potential of two concentric spheres. Two hollow conductive spheres of a = 10 cm and b = 20 cm, respectively, have a common center. The inner sphere has a charge of qa = 2.0 x 10-9 C evenly distributed over its surface, while the outer sphere has qb = 1.0 x 10-9 C. Plot the value of the electric potential from r = 0 (the center) to r = 50 cm. (Hint: in every region of space, the...

1. A 30 cm radius hollow spherical conductive shell of has a surface charge density of...

1. A 30 cm radius hollow spherical conductive shell of has a surface charge density of 10 µC/m2, a point charge Q1 is in its center. Find the electric flux through the spherical surface centered at Q1: a. if the value is Q1= +3.5x10-6 C charge b. if the value is Q1= -2.5x10-6 C charge c. What would be the electric field in each case? Please explain how you got the answer, having trouble understanding this and can't seem to...

1. An isolated spherical conductor has an excess charge of -8.6 ?C placed on its surface....

1. An isolated spherical conductor has an excess charge of -8.6 ?C placed on its surface. Inside the conductor is a cavity, within which is a point charge of 2.20 ?C. How many excess electrons are on the exterior surface of the conductor ? 2. Now, an additional 6.0 ?C is placed on the exterior of the sphere in the above problem. What will the total electric flux through a cubical gaussian surface drawn outside the sphere be?