Get Premium

Electric Charge And Electric Force

A point charge ${q}_{1}=+5.0 \mu \text{C}$ is 0.30 m from a point charge ${q}_{2}=-8.0 \mu \text{C}$. Calculate the magnitude and state the direction of the force on ${q}_{1}$.

4 marks

The distance between two identical charges is tripled. Indicate what happens to the electrostatic force and justify your answer.

3 marks

A student claims that two protons separated by 1.0 x 10^-10 m exert an attractive force on each other. Indicate whether this claim is correct and justify your response.

3 marks

Three identical positive charges $q$ are placed at the vertices of an equilateral triangle with side length $d$. Derive an expression for the magnitude of the net force on one of the charges in terms of $q$, $d$, $k$, and any necessary constants.

5 marks

Two charges of +Q and −Q are separated by distance $d$. A third charge +Q is placed at the midpoint. Indicate the direction of the net force on the third charge and justify your answer.

4 marks

Two electrons are separated by distance $d$. Derive an expression for the ratio ${F}_{E}/{F}_{g}$ in terms of fundamental constants.

4 marks

A student observes that gravity dominates at the scale of planets and stars. Indicate whether this means gravity is fundamentally stronger than the electric force and justify your reasoning.

4 marks

Describe what happens to the electrons in a neutral insulating sphere when an external electric field is applied. Explain why the sphere does not become charged.

4 marks

Indicate whether placing a material with permittivity $\epsilon >{\epsilon }_{0}$ between two point charges increases, decreases, or has no effect on the electrostatic force between them? Justify your answer.

3 marks

The expression for the ratio ${F}_{E}/{F}_{g}$ derived earlier is independent of separation distance. Indicate whether this result is consistent with the claim that gravity dominates at astronomical scales? Justify your reasoning.

4 marks