Adh99
500 Joule.
Wiki User
β 12y agoThe work done is 500 joules. Work is calculated by multiplying force by distance, which is 50 newtons x 10 meters = 500 joules.
The work done is calculated by multiplying the force applied by the distance over which the force is applied. In this case, the work done to lift the potted plant would be 25 Newtons * 1.5 meters = 37.5 Joules.
The work done is 200 Joules (20 N * 10 m). Work is calculated as force multiplied by distance.
The work done to lift the log can be calculated using the formula: Work = Force x Distance. In this case, the force is 5000 N and the distance is 5 meters. Therefore, the work required to lift the log 5 meters would be 5000 N x 5 m = 25000 Joules.
The work done to lift a 1000 kg block depends on the height it is lifted to and the force applied. Work done is calculated as force x distance. The formula is Work = force x distance x cos(theta), where theta is the angle between the force vector and the displacement vector.
The work done to lift the 5-kg box to a height of 1 meter would be 49.05 Joules (work = force Γ distance). In this case, the force required to lift the box against gravity can be calculated as force = mass Γ gravity, which is force = 5 kg Γ 9.81 m/s^2.
1 newton-meter = 1 joule
200 newton-meters per second = 200 watts.
The work done is calculated by multiplying the force applied by the distance over which the force is applied. In this case, the work done to lift the potted plant would be 25 Newtons * 1.5 meters = 37.5 Joules.
The work done is 200 Joules (20 N * 10 m). Work is calculated as force multiplied by distance.
The work done to lift the log can be calculated using the formula: Work = Force x Distance. In this case, the force is 5000 N and the distance is 5 meters. Therefore, the work required to lift the log 5 meters would be 5000 N x 5 m = 25000 Joules.
In this case, work is the product of force and distance. (This assumes that both are in the same direction, and that the force doesn't change.)
The work done to lift a 1000 kg block depends on the height it is lifted to and the force applied. Work done is calculated as force x distance. The formula is Work = force x distance x cos(theta), where theta is the angle between the force vector and the displacement vector.
the 100 grams is equal to 1 newton body exerts 1 newton force to lift 100grams. -by alok
5000 joules
Gravity does not lift. The force is doing the work by lifting the riders. When the riders come down from the 60 meter height, then gravity will be at work.
The work done to lift the 5-kg box to a height of 1 meter would be 49.05 Joules (work = force Γ distance). In this case, the force required to lift the box against gravity can be calculated as force = mass Γ gravity, which is force = 5 kg Γ 9.81 m/s^2.
To lift a 350 N weight by 1 meter using a pulley system with a mechanical advantage of 5, you would need to apply a force of 70 N (350 N divided by 5) over a distance of 1 meter. This force is reduced due to the mechanical advantage of the pulley system.