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You shoulda done your homework.
1400j
Wild budgerigars weigh 1.1-1.4 oz.
5427384
12j
The work done is calculated as the force applied multiplied by the distance moved in the direction of the force. In this case, the work done is 12 joules, as the weight of 6.0 N moved a distance of 2 meters vertically against gravity.
If a 100 N box is lifted 3 meters off the ground, the answer is 300 joules.
If a 100 N box is lifted 3 meters off the ground, the answer is 300 joules.
(4 x 5) kilogram-meters = 20 joules
Hi, This is more of a physics question, but can be solved using the equation; Work = Force * distance Thus; W = Fs W = 6 * 2 W = 12 Nm-1 where; W = work F = Force in Newtons s = distance over which the work is done (in meters)
The work done in lifting the tree is equal to the force applied multiplied by the distance it is lifted. The amount of work done would depend on the weight of the tree and the force required to lift it to a height of 2.75 meters above the ground.
If a 100 N box is lifted 3 meters off the ground, the answer is 300 joules.
The work done in lifting a 100 N box 3 meters off the ground is 300 Joules. This is calculated by multiplying the force applied (100 N) by the distance it is lifted (3 meters) and the cosine of the angle between the force and the direction of motion (which is 0 degrees in this case).
The work done in lifting a 100 N box 3 meters off the ground is 300 Joules (100 N * 3 m = 300 J). Work is calculated as force multiplied by distance in the direction of the force.
Work = force x displacementW = Fd W = 100N x 3m W = 300J 300 joules of work is done on the box.
The work done on the block is 350 J, which can be used to raise the block against gravity. Work done = force x distance. So, distance raised = work done / force = 350 J / 7 N = 50 meters.