Answered: 1. A spherical region of space of… | bartleby

Related questions

Question

1. A spherical region of space of radius 0.1 m has a volumetric charge density p₂ = kr² where k =
4 x 10-5 C/m5. The charge density is zero elsewhere in space (r> 0.1 m). Assume that the permittivity is o
everywhere.
a. Calculate the electric flux density (D) at r=0.02m
b. Determine the distance r outside the sphere at which the magnitude of the electric flux density is equal
to what you found in part (a).

Expert Solution

Step by step

Solved in 4 steps with 4 images

SEE SOLUTION Check out a sample Q&A here

Blurred answer

Similar questions

A spherical shell of radius 1.40 m contains a single charged particle with q = 38.0 nC at its center. (a) What is the total electric flux through the surface of the shell? N. m²/c (b) What is the total electric flux through any hemispherical portion of the shell's surface? N. m²/c
A solid nonconducting sphere (radius 15 cm) has a charge of uniform density (40 nC/m3) distributed throughout its volume. Determine the magnitude of the electric field (in units of N/C) at a distance of 10 cm from the center of the sphere. use eo = 8.8542x10-12 F m-1 Select one: OA. 87 OB. 452 C. 151 OD. 1486
2. A very long wire that has a linear charge density of +5.0 C/m lies along the y axis. A second wire, parallel to the first, has an x position of +1.0 m meters. It has a charge density of -2.0 C/m. At what points on the x axis is the electric field strength equal to zero? A=+5.0 C/m A = -2.0 C/m 1.0 m MacBook Air
1. A thin sheet of sides 2a and 2b lying in the xy plane and centered at the origin has a uniform charge density o (see figure). a. Using the result of Example 1 in the Chapter 23 slides, show that the electric field on the z-axis is given by of ab E = 4k,o arctan | zva² + b² + z². To get full credit you must show an appropriate differential of charge dq and explain any symmetry arguments you might have use to arrive to this result. b. What is the field in the limit a and b going to infinity? Compare your answer with the result of the What If? in Example 3 in the Chapter 23 slides. c. Using the results of part (a), find an integral expression for the electric field at an arbitrary point on the x-axis created by a cube of side 2a centered at the origin with uniform volume charge density p. You do not need to solve this integral.
Calculate the absolute value of the electric flux for the following situations (In all case provide your answer in N m2/C): a. A constant electric field of magnitude 300 N/C at a 30 degrees angle with respect to the flat rectangular surface shown in the Figure above. b. A uniform electric field E = (70 i + 90 k) N/C through a 4 cm ×5 cm in the x-y plane. c. A uniform electric field E = (−350 i + 350 j + 350 k) N/C through a disk of radius 3 cm in the x-z plane.
5. A uniformly charged solid sphere of radius R has a volume charge density of ρ. (a) Show that at a distance r from the center, the electric ﬁeld is ~ E = ρ 30rˆ r (b) Suppose someone hollows out the sphere as shown below. Find the elctric ﬁeld at 1 (the center) and 2 (the surface). Hint: model the sphere with cavity as two spheres with equal but opposite charge densities. ( the image also has the directions on it.)
do all parts