you divide;work/time=power
(/=divided by< I think)
By calculating the the speed and the amount of power you put into hitting the ball will determine the distance the ball will travel
2.0736 × 104
Two to the power of the amount of available digits.
Work = (force) x (distance). Time is not involved.But if that amount of work was done in that amount of time, then(force) x (distance)/(time) is the average power during that time.
The voltage of the motor does not determine the power. However it does determine how many Fla... Or full load amp it will have when the motor is at highest speed. Usually the lower the voltage the higher the amps On the same motor. Most motors will have a name plant with this information and you should always get the amount of horsepower motor you need and make sure it will be compatible with your power source.
The formula used to determine the power consumed by a compressor's crankcase heater is the overall volume times the amount of heat generated. This allows a person to purchase the appropriate heater for their application.
power
power
the amount of power going to the object will will cause the circut breaker to blow. if the object is not connected to a breaker then the object will catch on fire.
the grvitational pull of an object depents on its mass and density for power.
Divide the amount of work done by 550 pounds per second. Correct Answer is: Power = Work ÷ Time Divide the amount of work done by the amount of time it takes
the three factors that determine the energy cycle are solar power, electricity, and heat.
You can connect a watt meter to the circuit or it can be done by calculation. By calculation use this formula, Watts = Amps x Volts.
Similar to torque, which is the amount of force applied to an object rotating around an axis
The formula for power is: amount of work / time interval 200 J / 1 sec. The amount of power expended: 200 Watts
amount of force you can exert on a object, e.g camels and cows are actually chickens.
doing work changes the energy because energy is begining transferred to the object and the power will be equal to the amount of energy transferred.