__Energy to Force Calculator:__>

__Energy to Force Calculator:__>

Enter the values of energy, E_{(J)} and distance, d_{(m) } to determine the value of Force, F_{(N)}.

__Energy to Force Formula:__

__Energy to Force Formula:__

This concept relates to calculating the force exerted by an energy source over a certain distance.

Force, F_{(N)} in Newtons is equated by dividing the energy, E_{(J)} in joules and distance, d_{(m)} in metres.

Force, F_{(N)} = E_{(J)} / d_{(m)}

F_{(N)} = force in Newtons, N.

E_{(J)} = energy in joules, J.

d_{(m)} = distance in metres, m.

__Energy to Force Calculation:__

__Energy to Force Calculation:__

- Calculate the force exerted when 200 Joules of energy is applied to move an object 50 metres.

Given: E_{(J)} = 200J, d_{(m)} = 50m.

Force, F_{(N)} = E_{(J)} / d_{(m)}

F_{(N)} = 200 / 50

F_{(N)} = 4N.

- Force of 75 Newtons is used to apply 1500 Joules of energy. We want to find the distance over which the force was applied.

Given: E_{(J)} = 1500J, F_{(N)} = 75N.

Force, F_{(N)} = E_{(J)} / d_{(m)}

d_{(m)} = E_{(J)} / F_{(N)}

d_{(m)} = 1500 / 75

d_{(m)} = 20m.