Electric forces depend on mass, while gravitational forces depend on charge.

Electric forces do not depend on distance, while gravitational forces do.

Electric forces can be both attractive and repulsive, while gravitational forces are only attractive.

Electric forces are always stronger than gravitational forces.

Boltzmann constant

Coulomb's constant

Planck's constant

Gravitational constant

Add the charges and multiply by the distance

Multiply the charges and the distance

Multiply the charges and divide by the distance

Multiply the charges, divide by the square of the distance, and multiply by Coulomb's constant

It ensures the units are consistent with Coulomb's constant.

It simplifies the calculation.

It is not necessary for the calculation.

It makes the charges larger.

22.5 newtons

3.6 newtons

23 newtons

8.2 newtons

As a gravitational force

As a neutral force

As an attractive force

As a repulsive force

By assuming all forces cancel out

By calculating the force from each charge separately and adding them vectorially

By only considering the largest charge

By ignoring the distances between charges