Electric Field Concepts and Calculations

To calculate the mass of the charges

To find the gravitational force between the charges

To determine the total electric field at that point

To measure the distance between the charges

It moves in a circular path around the positive charge

It remains stationary

It is attracted towards the positive charge

It is repelled away from the positive charge

To the left

To the right

Upwards

Downwards

144,000 N/C

72,000 N/C

36,000 N/C

108,000 N/C

Because electric fields are always positive

Because electric fields are scalar quantities

Because electric fields are always negative

Because electric fields are vector quantities

It is pushed up and to the right

It is pulled down and to the left

It remains stationary

It moves in a circular path

By adding their magnitudes directly

By subtracting their magnitudes

By breaking them into components and adding

By multiplying their magnitudes

50,000 N/C

40,248 N/C

30,000 N/C

60,000 N/C

Using the inverse tangent function

Using the inverse sine function

Using the Pythagorean theorem

Using the inverse cosine function

18.4 degrees above the positive x-axis

18.4 degrees above the negative x-axis

18.4 degrees below the positive x-axis

18.4 degrees below the negative x-axis