Quizbank/Electricity and Magnetism: Gauss' Law/Cum

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: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho z}$

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

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

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

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: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho }$

b) none of these are correct

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

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

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

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

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

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

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

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

b) none of these are correct

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

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

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

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: Template:Nowrap. 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) ${\displaystyle 2R{\epsilon }_{0}E=r^2\rho }$

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

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

d) none of these are correct

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

6) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated outside the Gaussian surface

a) True

b) False

7) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated on the Gaussian surface

a) True

b) False

8) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ had

a) constant direction and magnitude over the entire Gaussian surface

b) constant magnitude over a portion of the Gaussian surface

c) constant direction over a portion of the Gaussian surface

d) constant in direction over the entire Gaussian surface

a) True

b) False

a) True

b) False

1) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated on the Gaussian surface

a) True

b) False

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: Template:Nowrap. 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) ${\displaystyle 2r{\epsilon }_{0}E=R^2\rho }$

b) none of these are correct

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

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

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

a) True

b) False

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: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho }$

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

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

d) none of these are correct

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

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: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho z}$

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

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

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

e) none of these are correct

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

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

c) none of these are correct

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

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

a) True

b) False

8) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated outside the Gaussian surface

a) True

b) False

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

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

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

d) none of these are correct

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

10) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ had

a) constant in direction over the entire Gaussian surface

b) constant direction and magnitude over the entire Gaussian surface

c) constant magnitude over a portion of the Gaussian surface

d) constant direction over a portion of the Gaussian surface

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) none of these are correct

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

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

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

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

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

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

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

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

e) none of these are correct

3) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated outside the Gaussian surface

a) True

b) False

4) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated on the Gaussian surface

a) True

b) False

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: Template:Nowrap. 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) ${\displaystyle 2{\epsilon }_{0}E=r\rho }$

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

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

d) none of these are correct

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

6) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=\rho z}$

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

c) none of these are correct

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

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

7) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ had

a) constant in direction over the entire Gaussian surface

b) constant magnitude over a portion of the Gaussian surface

c) constant direction and magnitude over the entire Gaussian surface

d) constant direction over a portion of the Gaussian surface

8) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho /2}$

b) none of these are correct

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

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

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

a) True

b) False

a) True

b) False

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: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho z}$

b) none of these are correct

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

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

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

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: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho /2}$

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

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

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

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

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

c) none of these are correct

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

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

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: Template:Nowrap. 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) ${\displaystyle 2R{\epsilon }_{0}E=r^2\rho }$

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

c) none of these are correct

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

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

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: Template:Nowrap. 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) ${\displaystyle 2r{\epsilon }_{0}E=R^2\rho }$

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

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

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

6) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated inside the Gaussian surface

a) True

b) False

7) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ had

a) constant direction over a portion of the Gaussian surface

b) constant in direction over the entire Gaussian surface

c) constant direction and magnitude over the entire Gaussian surface

d) constant magnitude over a portion of the Gaussian surface

a) True

b) False

a) True

b) False

a) True

b) False

a) True

b) False

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: Template:Nowrap. 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) ${\displaystyle 2R{\epsilon }_{0}E=r^2\rho }$

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

c) none of these are correct

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

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

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) none of these are correct

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

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

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

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

a) True

b) False

5) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated inside the Gaussian surface

a) True

b) False

6) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho /2}$

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

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

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

7) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho /2}$

b) none of these are correct

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

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

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

8) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ had

a) constant magnitude over a portion of the Gaussian surface

b) constant in direction over the entire Gaussian surface

c) constant direction over a portion of the Gaussian surface

d) constant direction and magnitude over the entire Gaussian surface

a) True

b) False

10) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: Template:Nowrap. 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) ${\displaystyle 2r^2{\epsilon }_{0}E=R^3\rho }$

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

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

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

a) True

b) False

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

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

c) none of these are correct

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

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

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: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=\rho z}$

b) none of these are correct

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

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

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

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: Template:Nowrap. 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) ${\displaystyle 2{\epsilon }_{0}E=r\rho }$

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

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

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

e) none of these are correct

5) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ had

a) constant direction and magnitude over the entire Gaussian surface

b) constant magnitude over a portion of the Gaussian surface

c) constant in direction over the entire Gaussian surface

d) constant direction over a portion of the Gaussian surface

a) True

b) False

7) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: Template:Nowrap. 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) ${\displaystyle 2{\epsilon }_{0}E=r\rho }$

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

c) none of these are correct

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

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

8) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated inside the Gaussian surface

a) True

b) False

a) True

b) False

10) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho /2}$

b) none of these are correct

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

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

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

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: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho }$

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

c) none of these are correct

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

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

2) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=\rho z}$

b) none of these are correct

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

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

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

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

b) none of these are correct

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

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

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

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: Template:Nowrap. 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) ${\displaystyle 2r^2{\epsilon }_{0}E=R^3\rho }$

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

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

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

e) none of these are correct

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: Template:Nowrap. 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) ${\displaystyle 2r^2{\epsilon }_{0}E=R^3\rho }$

b) none of these are correct

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

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

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

6) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated inside the Gaussian surface

a) True

b) False

7) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated on the Gaussian surface

a) True

b) False

8) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ had

a) constant magnitude over a portion of the Gaussian surface

b) constant direction and magnitude over the entire Gaussian surface

c) constant in direction over the entire Gaussian surface

d) constant direction over a portion of the Gaussian surface

a) True

b) False

a) True

b) False

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: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=\rho z}$

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

c) none of these are correct

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

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

2) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated on the Gaussian surface

a) True

b) False

a) True

b) False

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: Template:Nowrap. 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) ${\displaystyle 2r{\epsilon }_{0}E=R^2\rho }$

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

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

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

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

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

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

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

e) none of these are correct

6) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated inside the Gaussian surface

a) True

b) False

7) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much greater than the radius: Template:Nowrap. 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) ${\displaystyle 2r{\epsilon }_{0}E=R^2\rho }$

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

c) none of these are correct

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

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

8) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ had

a) constant direction and magnitude over the entire Gaussian surface

b) constant direction over a portion of the Gaussian surface

c) constant magnitude over a portion of the Gaussian surface

d) constant in direction over the entire Gaussian surface

a) True

b) False

10) A cylinder of radius, R, and height H has a uniform charge density of ${\displaystyle \rho }$. The height is much less than the radius: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=\rho z}$

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

c) none of these are correct

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

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

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: Template:Nowrap. 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) ${\displaystyle 2{\epsilon }_{0}E=r\rho }$

b) none of these are correct

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

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

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

2) If Gauss' law can be reduced to an algebraic expression that easily calculates the electric field ${\displaystyle ({\epsilon }_{0}E{A}^{*}=\rho V^{*})}$, ${\displaystyle \overrightarrow{E}}$ was calculated inside the Gaussian surface

a) True

b) False

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

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

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

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

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: Template:Nowrap. 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) ${\displaystyle {\epsilon }_{0}E=H\rho }$

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

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

d) none of these are correct

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