Work = Force x Distance
so
Work = 200 N x 2 m = 400 N· m = 400 Joule
9 kiloNewtons.
There are three forces that are exerted on the horse cart system. They are: weight, pull, and friction.
For example, if the book is resting on a table, gravity pulls the book down, and the table pushes the book up.
On both it has the same amount of gravity but it has a different amount of force. The elephant might weighmore than the cat but they both have the exact same amount of gravity, or as others say it, acceleration. So the answer would be that it pull down on both of them with an equal amount of force.
a net force
Generally, the largest animals a large crocodile can take down are adult hippos: elephants are simply too heavy - African elephants are the heaviest things on land! However, a group of 4 - 5 really big crocodiles could probably take down an adult elephant, and a crocodile MAY be able to take down a baby elephant.
4,000
It can change by moving pushing or pulling you force it to
No. The force keeping a ball on a string moving in a circle is centripetal force, i.e. force pulling the ball to the center of the circle.
When both sides are pulling with equal force, the object is either moving at a constant speed or it is stationary (not moving) :)
When a ball moving hits a ball that is at rest and a human pulling out a book from a desk.
An output force is a force that results from an input force. For example, initially pushing something is an input force. The output force would be the force that it is moving with because of the input force.
according to voiume 1 physics, by resnick and halliday cart- horse paradox is discussed. the point of application of force and action-reaction pairs have to be considered at the moment of moving.
There are absolutely no such things as "pulling" forces. Force = mass x Acceleration --- F = mA That physically means that "the mass" is Accelerating (moving). That physically and absolutely means that the mass can only push. "Pulling" is simply "Pushing" on the inside of any attached grip to any piece of mass.
Tensile (pulling) force
There is no fundamental relationship between the distance an object moves and the force applied to it. Once an object is moving, no force is required to keep it moving, and the distance it can move without applied force is unlimited.
pulling
500 N