10. For students who are taking PHYS 2126 only. An electric charge Q is distributed uniformly...
11. For students who are taking PHYS 2126 only. A very long solid conducting cylinder of radius R, and length / (R, ID possesses a uniform volume charge density p (C/m'3). Determine the electric field E (magnitude and direction) at points (a) outside the cylinder, and (b) inside the cylinder. Do only for points far from the ends and for which R <I
An electric charge Q is distributed uniformly throughout a non-conducting sphere of radius r0, See Fig. below. Using the Gauss's law, determine the electric field: a) Outside of sphere (r0>r). b) Inside the sphere (r0<r).
A sphere has a total charge Q uniformly distributed over its volume. The field inside the sphere at a radius r is given by Er= k (Q/R^3) r (a) What is the electric field at a radius r from the center of the sphere, where r > R (i.e outside of the sphere)? (b) Write down an expression for the electric potential at a radius r for r > R (i.e. outside of the sphere). (c) What is the electric...
An isolated thin spherical conducting shell of radius R has charge Q uniformly distributed on its surface. Write the results in terms of k, Q and R. (a) Find the electric field at a distance, r = 2R from the center of the sphere. (b) What is the electric field at the center of the conducting sphere? What is the electric field inside the conducting sphere? Please explain the steps and formuals. Mandatory !!!
A uniformly charged non-conducting sphere of radius a is placed at the center of a spherical conducting shell of inner radius b and outer radius c. A charge +Q is distributed uniformly throughout the inner sphere. The outer shell has charge -Q. Using Gauss' Law: a) Determine the electric field in the region r< a b) Determine the electric field in the region a < r < b c) Determine the electric field in the region r > c d)...
For students who are taking PHYS 2126 only. Three charges, q-1.0HC, q-2.0 μΟ. and qjs 3.01C are placed at the corners of a square of side 0.30 m. (a) If a fourth charge of + 4.011C is brought to the fourth corner, what is the direction and 9. magnitude of the electric force Fe on qs due to the other charges. (b) What is the magnitude and direction of the electric field E at the corner occupied by g2 if...
Problem 8 A positive charge is uniformly distributed through an insulating sphere of radius R. The point P that is located a distance r from the center of the sphere. (i) Determine the electric field when the point P is inside the sphere (r < R). (ii) Determine the electric field when the point P is outside the sphere (r > R). (iii) Plot the magnitude of the electric field as a function of r.
Problem 8 A positive charge is uniformly distributed through an insulating sphere of radius R. The point P that is located a distance r from the center of the sphere. (i) Determine the electric field when the point P is inside the sphere (r < R). (i) Determine the electric field when the point P is outside the sphere (r> R). (iii) Plot the magnitude of the electric field as a function of r.
1.0n·y2=-2.0 For students who are taking PHYS 2126 only. Three charges, q HC, and qs 3.0 uC are placed at the corners of a square of side 0.30 m. (a) If a fourth charge of +4.0 uC is brought to the fourth corner, what is the direction and 9. magnitude of the electric force F, on qs due to the other charges (b) What is the magnitude and direction of the electric field E at the corner occupied by g2...
1) (a) A conducting sphere of radius R has total charge Q, which is distributed uniformly on its surface. Using Gauss's law, find the electric field at a point outside the sphere at a distance r from its center, i.e. with r > R, and also at a point inside the sphere, i.e. with r < R. (b) A charged rod with length L lies along the z-axis from x= 0 to x = L and has linear charge density λ(x)...