Quizbank/Electricity and Magnetism: Gauss' Law/T1

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z < H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

b) none of these are correct

c) ${\displaystyle \varepsilon _{0}E=\rho z}$

d) ${\displaystyle \varepsilon _{0}E=H\rho }$

e) ${\displaystyle \varepsilon _{0}E=H\rho z}$

2) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

c) none of these are correct

d) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

b) none of these are correct

c) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

b) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

c) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

d) none of these are correct

e) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

5) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) none of these are correct

b) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

c) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

d) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

e) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z < H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho }$

b) none of these are correct

c) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

d) ${\displaystyle \varepsilon _{0}E=H\rho z}$

e) ${\displaystyle \varepsilon _{0}E=\rho z}$

2) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) none of these are correct

b) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

c) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

d) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

e) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

d) none of these are correct

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

b) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

c) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

d) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

e) none of these are correct

5) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) none of these are correct

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

1) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

d) none of these are correct

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

2) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

b) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

c) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

d) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

e) none of these are correct

3) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z < H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho }$

b) ${\displaystyle \varepsilon _{0}E=\rho z}$

c) none of these are correct

d) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

e) ${\displaystyle \varepsilon _{0}E=H\rho z}$

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

b) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

c) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

d) none of these are correct

e) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

5) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) none of these are correct

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z > H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho z}$

b) none of these are correct

c) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

d) ${\displaystyle \varepsilon _{0}E=H\rho }$

e) ${\displaystyle \varepsilon _{0}E=\rho z}$

2) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z < H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

b) ${\displaystyle \varepsilon _{0}E=H\rho z}$

c) ${\displaystyle \varepsilon _{0}E=H\rho }$

d) ${\displaystyle \varepsilon _{0}E=\rho z}$

e) none of these are correct

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) none of these are correct

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) none of these are correct

b) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

c) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

d) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

e) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

5) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

b) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

c) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

d) none of these are correct

e) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

b) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

c) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

d) none of these are correct

e) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

2) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z < H/2?

a) none of these are correct

b) ${\displaystyle \varepsilon _{0}E=\rho z}$

c) ${\displaystyle \varepsilon _{0}E=H\rho }$

d) ${\displaystyle \varepsilon _{0}E=H\rho z}$

e) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

c) none of these are correct

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

b) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

c) none of these are correct

d) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

e) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

5) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z > H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho z}$

b) ${\displaystyle \varepsilon _{0}E=H\rho }$

c) none of these are correct

d) ${\displaystyle \varepsilon _{0}E=\rho z}$

e) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

b) none of these are correct

c) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

d) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

e) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

2) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

b) none of these are correct

c) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

3) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z < H/2?

a) ${\displaystyle \varepsilon _{0}E=\rho z}$

b) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

c) ${\displaystyle \varepsilon _{0}E=H\rho z}$

d) ${\displaystyle \varepsilon _{0}E=H\rho }$

e) none of these are correct

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z > H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

b) none of these are correct

c) ${\displaystyle \varepsilon _{0}E=\rho z}$

d) ${\displaystyle \varepsilon _{0}E=H\rho z}$

e) ${\displaystyle \varepsilon _{0}E=H\rho }$

5) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

b) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

c) none of these are correct

d) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

e) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z > H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

b) none of these are correct

c) ${\displaystyle \varepsilon _{0}E=\rho z}$

d) ${\displaystyle \varepsilon _{0}E=H\rho z}$

e) ${\displaystyle \varepsilon _{0}E=H\rho }$

2) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

b) none of these are correct

c) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

c) none of these are correct

d) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

b) none of these are correct

c) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

d) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

e) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

5) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

b) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

c) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

d) none of these are correct

e) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

b) none of these are correct

c) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

d) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

e) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

2) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

b) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

c) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

d) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

e) none of these are correct

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

d) none of these are correct

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z > H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

b) ${\displaystyle \varepsilon _{0}E=H\rho }$

c) none of these are correct

d) ${\displaystyle \varepsilon _{0}E=H\rho z}$

e) ${\displaystyle \varepsilon _{0}E=\rho z}$

5) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

b) none of these are correct

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

b) none of these are correct

c) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

d) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

e) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

2) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z > H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho }$

b) none of these are correct

c) ${\displaystyle \varepsilon _{0}E=\rho z}$

d) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

e) ${\displaystyle \varepsilon _{0}E=H\rho z}$

3) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) none of these are correct

b) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

c) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

d) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

e) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

4) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

e) none of these are correct

5) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

c) none of these are correct

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z < H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho }$

b) ${\displaystyle \varepsilon _{0}E=\rho z}$

c) none of these are correct

d) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

e) ${\displaystyle \varepsilon _{0}E=H\rho z}$

2) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

d) none of these are correct

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

e) none of these are correct

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

b) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

c) none of these are correct

d) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

e) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

5) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

b) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

c) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

d) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

e) none of these are correct

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) none of these are correct

b) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

c) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

d) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

e) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

2) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

d) none of these are correct

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

e) none of these are correct

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z < H/2?

a) none of these are correct

b) ${\displaystyle \varepsilon _{0}E=H\rho }$

c) ${\displaystyle \varepsilon _{0}E=H\rho z}$

d) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

e) ${\displaystyle \varepsilon _{0}E=\rho z}$

5) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

b) none of these are correct

c) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

d) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

e) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z < H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

b) none of these are correct

c) ${\displaystyle \varepsilon _{0}E=H\rho }$

d) ${\displaystyle \varepsilon _{0}E=\rho z}$

e) ${\displaystyle \varepsilon _{0}E=H\rho z}$

2) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

b) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

c) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

d) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

e) none of these are correct

3) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) none of these are correct

b) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

c) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

d) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

e) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

4) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

d) none of these are correct

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

5) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

b) none of these are correct

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z > H/2?

a) ${\displaystyle \varepsilon _{0}E=\rho z}$

b) ${\displaystyle \varepsilon _{0}E=H\rho z}$

c) ${\displaystyle \varepsilon _{0}E=H\rho }$

d) none of these are correct

e) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

2) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

c) none of these are correct

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) none of these are correct

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

e) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

b) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

c) none of these are correct

d) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

e) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

5) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

b) none of these are correct

c) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

d) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

e) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: H << R. The electric field at the center vanishes. What formula describes the electric field at a distance, z, on axis from the center if z > H/2?

a) ${\displaystyle \varepsilon _{0}E=H\rho z}$

b) ${\displaystyle \varepsilon _{0}E=H\rho /2}$

c) ${\displaystyle \varepsilon _{0}E=\rho z}$

d) ${\displaystyle \varepsilon _{0}E=H\rho }$

e) none of these are correct

2) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

e) none of these are correct

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

e) none of these are correct

4) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) none of these are correct

b) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

c) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

d) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

e) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

5) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r < R?

a) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

b) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

c) none of these are correct

d) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

e) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

1) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: H >> R. The electric field at the center vanishes. What formula describes the electric field at a distance, r, radially from the center if r > R?

a) ${\displaystyle 2r\varepsilon _{0}E=R^{2}\rho }$

b) none of these are correct

c) ${\displaystyle 2\varepsilon _{0}E=r\rho }$

d) ${\displaystyle 2R\varepsilon _{0}E=r^{2}\rho }$

e) ${\displaystyle 2r^{2}\varepsilon _{0}E=R^{3}\rho }$

2) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius equal to R. What formula describes the electric field at a distance r < R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

e) none of these are correct

3) A sphere has a uniform charge density of ${\displaystyle \rho }$, and a radius or R. What formula describes the electric field at a distance r > R?

a) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /3}$

b) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /2}$

c) ${\displaystyle r^{2}\varepsilon _{0}E=R^{3}\rho /2}$

d) ${\displaystyle r^{2}\varepsilon _{0}E=r^{3}\rho /3}$

e) none of these are correct