__Kinetic Energy to Force Calculator:__

__Kinetic Energy to Force Calculator:__

Enter the values of the mass m_{(kg)} , velocity v^{2}_{(m/s)} & distance d_{(m)} to determine the value of kinetic energy to force F_{(Newton).}

__Kinetic Energy to Force Formula:__

__Kinetic Energy to Force Formula:__

The kinetic energy to force F_{(Newton)} in Newton is equal to the half into multiply to the mass m_{(kg)} in kilogram again multiply to the velocity v^{2}_{(m/s)} in meter per second and divided by the distance d_{(m)} in meter.

The equation of kinetic energy can be writtern as,

F_{(Newton)} = 1 / 2 * m_{(kg)} * v^{2}_{(m/s)} * / d_{(m)}

Here,

F_{(Newton)} = kinetic energy to force in Newton

m_{(kg)} = the mass in kilogram

v^{2}_{(m/s)} = velocity in meter per second

d_{(m)} = distance in meter

__Calculation for Kinetic Energy to Force:__

__Calculation for Kinetic Energy to Force:__

1)To calculate the kinetic energy to force and mass 25kg and velocity 8m/s and distance 50m.

Answer

F = 1 / 2 * m *v^{2} / d

F = 1 / 2 * 25 * 8 / 50

F = 2N.

2)To calculate distance and the kinetic energy to force 2N and mass 25kg and velocity 8m/s.

Answer

F = 1 / 2 * m *v^{2} / d

2 = 1 / 2 * 25 * 8 / d

d = 50m.

__Forces and Kinetic Energy:__

__Forces and Kinetic Energy:__