power = work/time
Work is force * distance power = force*distance/Time
This formula is the ideal gas law. It relates different measurements in a gas, and has nothing to do with power.
Assuming you are referring to mechanical energy:Work or energy (work can be thought of as a transfer of energy) is force x distance. Power is energy / time. Thus, power is force x distance / time Which is equivalent to: power is force x speed
You need one more "given": the time, i.e., how long it takes you. Work = distance x force, and power = work / time. Thus, you get: power = distance x force / time
Pressure =Force/Area
power = work/time
how transform the formula of power is force is required explain
Work is force * distance power = force*distance/Time
This formula is the ideal gas law. It relates different measurements in a gas, and has nothing to do with power.
There is not enough information.
The formula P = I^2R relates power (P), current (I), and resistance (R), indicating the power dissipated in a resistor. On the other hand, the formula P = V^2/R relates power (P), voltage (V), and resistance (R), representing the power dissipated across a resistor. The former formula deals with power in terms of current, while the latter formula expresses power in terms of voltage.
Assuming you are referring to mechanical energy:Work or energy (work can be thought of as a transfer of energy) is force x distance. Power is energy / time. Thus, power is force x distance / time Which is equivalent to: power is force x speed
You need one more "given": the time, i.e., how long it takes you. Work = distance x force, and power = work / time. Thus, you get: power = distance x force / time
Pressure!
E = mc2
w=mg