In physics, Power is equal to Work divided by time:P = W/tP = PowerW = Workt = time
Power is the rate of doing work. Worn can be found by multiplying power by time. One watt ofpower is equal to a work rate of 1.000 N - m per s. One horsepower of power is equal to awork rate of 550 ft - lbf per s.P = W / tW = ( P ) ( t )
According to the laws of BODMAS, the actions of exponents are carried out before the acts of multiplication. Therefore, ab to the second power is equal to a(b2). Therefore, you work out what b2 is equal to before you multiply it by a.
Work is equal to the product of force and distance, expressed mathematically as ( W = F \times d ), where ( W ) is work, ( F ) is force, and ( d ) is the distance over which the force is applied. Time, in the context of work, can be related to power, which is the rate at which work is done, defined as ( P = \frac{W}{t} ), where ( P ) is power and ( t ) is time. Thus, work and time are interconnected through the concepts of force, distance, and power.
8 to the power of 8 = 8x8x8x8x8x8x8x8 and does not equal 1 but 1 to the power of 8 does equal 1
Power = work/time So time = power/work and work = power x time.
Power = Work divided by seconds.or in other words....Power = work/seconds.Clear explanation: Power is equal to:How much work is done (in joules) divided by the seconds of how much time did the work took.For example:Problem: A construction worker pushes the wheelbarrow with the power of 50 J per 2 seconds how much power does he use?Answer: 50 J divided by 2 s is 25 W so, the power is equal to 25 watts.
Power is equal to the rate at which work is done, so the equation for power can be written as P = W/t, where P is power, W is work, and t is time. This equation shows that power is directly proportional to the amount of work done in a certain amount of time.
In physics, Power is equal to Work divided by time:P = W/tP = PowerW = Workt = time
Average power equals Work divided by time. P= W/t
No, work is equal to force times distance. Power is equal to force times distance over time.
Power is the rate of doing work. Worn can be found by multiplying power by time. One watt ofpower is equal to a work rate of 1.000 N - m per s. One horsepower of power is equal to awork rate of 550 ft - lbf per s.P = W / tW = ( P ) ( t )
According to the laws of BODMAS, the actions of exponents are carried out before the acts of multiplication. Therefore, ab to the second power is equal to a(b2). Therefore, you work out what b2 is equal to before you multiply it by a.
Work is the measure of energy transfer that occurs when a force is applied over a distance. Power, on the other hand, is the rate at which work is done or energy is transferred. Power is the amount of work done or energy transferred per unit of time. Mathematically, power is equal to work divided by time.
Work is equal to the product of force and distance, expressed mathematically as ( W = F \times d ), where ( W ) is work, ( F ) is force, and ( d ) is the distance over which the force is applied. Time, in the context of work, can be related to power, which is the rate at which work is done, defined as ( P = \frac{W}{t} ), where ( P ) is power and ( t ) is time. Thus, work and time are interconnected through the concepts of force, distance, and power.
No, the adapter's power output has to be equal to or greater that the current draw of the device.
The work done is equal to the power multiplied by the time. In this case, 500 watts × 2 minutes = 1000 joules.