power is required to do work and work efficiancy is the ammount of time it takes to do work.
They are in the same equation for power=work/time
No
A balance which work having an electrical power source.
Representing the powers, it means that power of 10 or somehow related to 10
Yes - I make soaps at work and I am a chemist. It is chemists who design soaps
They sure do. Every time you turn them off.
power is the work divided by time.
Power = Work/Time Time = Work/Power Work = Power * Time See related links for a power calculator. Insert work and time to calculate power.
They are both related by a transfer function which is time . And w= force x distance or w= distance x time . P= work / time
They are both related by a transfer function which is time . And w= force x distance or w= distance x time . P= work / time
Work and energy are very closely related. Power is the rate of using energy or doing work. Energy is measured in Joules. Power is measured in Joules per second or Watts. Power P is the time derivative of Work W, P= dW/dt. Power = Workdone or Energy / Time
Work and energy are very closely related. Power is the rate of using energy or doing work. Energy is measured in Joules. Power is measured in Joules per second or Watts. Power P is the time derivative of Work W, P= dW/dt. Power = Workdone or Energy / Time
Power = work/time So time = power/work and work = power x time.
Power is energy divided by time. Solving for energy, energy is power multiplied by time. Work is closely related to energy - work is the amount of energy transferred.
Work and energy are very closely related. Power is the rate of using energy or doing work. Energy is measured in Joules. Power is measured in Joules per second or Watts. Power P is the time derivative of Work W, P= dW/dt. Power = Workdone or Energy / Time
Work divided by time is power.
Yes; power= work/time, or work per time, measured in watts.
Power is the measure of Work Done in a given time.