Wiki User
∙ 14y agoDistance * Force / Calories
Wiki User
∙ 14y agoThe simplistic solution is as follows: The component of the force in the horizontal plane is 41.8*cos(25) = 37.9 N. The distance travelled is pi*18 metres so work done = 37.9*18 = 2142 Joules.
-10
Depends... they are doing the same amount of work on the wagon/child. HOwever, if you take everything into account... say the diffrent masses of the father and mother, then the bigger of the two would be doing more work.
Wagon has two syllables.
There are two syllables in the word wagon. The syllables are wag-on.
Yes, pushing a wagon involves applying force to the wagon in order to set it in motion. This action demonstrates the connection between force (the push) and motion (the movement of the wagon).
Yes, work is done when you pull a child in a wagon because you are applying a force over a distance to move the wagon and the child. Work is calculated as force multiplied by distance.
A wagon is a class two lever, with the load (passengers or cargo) positioned between the fulcrum (wheels) and the force (person pulling or pushing).
A wagon at the top of a hill will do work when it moves downhill due to the force of gravity pulling it downward. Work is done when a force acts on an object to move it over a distance in the direction of the force, which occurs as the wagon descends the hill.
Friction is the force that resists the motion of the wagon when it is being pushed or pulled. It acts in the opposite direction to the force applied, making it harder to move the wagon. Increasing friction between the wheels and the ground can make it more difficult to push or pull the wagon.
The work done in pulling the wagon is 1500 J. The force exerted can be calculated using the work-energy principle: Work = Force * Distance. So, Force = Work / Distance. Plugging in the values, Force = 1500 J / 20 m = 75 N.
The work done by the elephant while moving the circus wagon can be calculated using the formula: Work = Force x Distance. If the pulling force exerted by the elephant is known, the work done can be calculated by multiplying the force by the distance of 20 meters.
The work done can be calculated by multiplying the force applied by the distance moved in the direction of the force. In this case, work = force x distance = 33N x 13m = 429 Joules.
The work done by the boy can be calculated using the formula: work = force x distance. First, convert 30 minutes to seconds (30 minutes = 1800 seconds). Then, calculate the distance moved by the wagon using the speed and time. Finally, multiply the force (40 N) by the distance to get the work done.
force
force
Yes, pulling a wagon involves contact force. The force exerted by the person pulling the wagon is transmitted through the wagon's wheels to the ground, generating friction that helps propel the wagon forward.