__Velocity to Force Calculator:__

__Velocity to Force Calculator:__

Enter the values of mass of the object, m_{(kg)}, rate of change of its velocity, v_{(m/s)} and time, t_{(s)} to determine the value of the force, F_{(N)}.

__Velocity to Force Formula:__

__Velocity to Force Formula:__

The velocity to force formula is utilized to determine the force exerted by an object in motion when its velocity changes over a certain period.

The force, F_{(N)} in Newton is calculated by multiplying the mass of the object, m_{(kg)} in kilogram by the rate of change of its velocity, v_{(m/s)} in metre per second over time, t_{(s)} in seconds which is essentially the acceleration.

The force, F_{(N)} = m_{(kg)} * v_{(m/s)} / t_{(s)}

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

m_{(kg) }= mass of the object in kilogram, kg.

v_{(m/s)} = velocity in metre per second, m/s.

t_{(s)} = time in seconds, s.

__Velocity to Force Calculation:__

__Velocity to Force Calculation:__

- A car with a mass of 1500 kg accelerates from rest to 60 km/h (16.67 m/s) in 10 seconds. Calculate the force exerted by the car’s engine.

Given: m_{(kg) }= 1500kg, v_{(m/s)} = 16.67m/s, t_{(s)} = 10s.

The force, F_{(N)} = m_{(kg)} * v_{(m/s)} / t_{(s)}

F_{(N)} = 1500 * 16.67 / 10

F_{(N)} = 2500.5N.

- Find v
_{(m/s)}for a scenario where the force exerted is 500 N, the mass of the object is 50 kg, and the time over which the force is applied is 5 seconds.

Given: m_{(kg) }= 50kg, F_{(N)} = 500N, t_{(s)} = 5s.

The force, F_{(N)} = m_{(kg)} * v_{(m/s)} / t_{(s)}

v_{(m/s)} = F_{(N) } * t_{(s)} / m_{(kg)}

v_{(m/s)} = 500 * 5 / 50

v_{(m/s)} = 50m/s.

__How to Calculate Force:__

__How to Calculate Force:__