Wiki User
โ 11y agoYes, if the velocity of the object is increased.
Wiki User
โ 11y agoYou can't because you need the time involved. Force x distance shifted in the direction of the force = energy. But power is energy per unit time (seconds etc)
Power = (energy) / (time) = (35 x 5) / 19 = 175 newton-meters / 19 seconds = 9.2105 watts (rounded)
-- Magnitude of the force (or force as a function of time) -- Distance through which it acted (or position as a function of time) -- Duration of the time during which it persisted Work is the product of (force) x (total distance). Power is (work) divided by (duration of the time). If the force and distance are functions of time, then I'm not sure how to do it right now, but I know there's an integral in there somewhere, and I'm not happy about that.
The work is Work= FD= 40x18= 720 Joules. The power is W/seconds = 720/4= 180 Watts.
The total work done or energy transferred is equal to the product of the force and the displacement in the direction of the force applied. In this case it would be 300N x 10m to get 3000J. This energy is transferred in 10 seconds and since power is energy transferred per unit time... 3000J divided by 10 seconds equals 300 Watts or 300 Joules per second.
The duration of Power Rangers Wild Force is 1800.0 seconds.
The duration of Power Rangers Time Force is 1800.0 seconds.
The duration of Power Rangers Mystic Force is 1320.0 seconds.
He increase his power, so could force people to make the changes he wanted.
You can't because you need the time involved. Force x distance shifted in the direction of the force = energy. But power is energy per unit time (seconds etc)
Power = (energy) / (time) = (35 x 5) / 19 = 175 newton-meters / 19 seconds = 9.2105 watts (rounded)
his force is clearly 200N
The power of the machine can be calculated using the formula Power = Work/Time. Given that Work = Force x Distance, and the force required to lift the object will be its weight (N), the power can be calculated using the force (weight of object) and the distance it is lifted in the given time frame.
The power required to move the chair can be calculated using the formula Power = force x distance รท time. Plugging in the values: P = 51 N x 5 m รท 15 s = 17 Watts. Therefore, it would take approximately 17 Watts of power to move the chair 5 meters in 15 seconds using a force of 51 Newtons.
i think is true!
i think is true!
The power needed would depend on the force required to move the piano and the distance it is moved in 5 seconds. Without knowing these factors, an accurate estimate cannot be provided.