There is no such thing as an amount of force needed to move a certain distance.
Asteroids, comets, moons, and planets have been moving trillions of miles through
space for billions of years with either no force on them at all, or no force in the
direction they're moving.
You may have heard of Newton's First Law. It says that an object with no forces
acting on it keeps moving in a straight line at a constant speed, which is kind of
another good way of saying that it can move as far as you want it to with no force
on it.
An example of force being used to move a stationary object is when you push a door open.
First you must know the amount of force used to move an object. And second, you must know the distance that the object moves
increases the distance an object travels, but reduces the force needed to raise the object to a higher level
Effort force is a force used to move an object over distance.Which ball will bounce higher lacrosse ball or tennis ball?Read more: Which_ball_will_bounce_higher_lacrosse_ball_or_tennis_ball
-- Measure the force you use to pull the object. You can connect a spring "fish" scale to the object, pull on the scale, and read off the force while the object moves. -- Measure the distance the object moves. Multiply the force by the distance. The product is the energy used to move it. (Be careful with the units.)
Work is done when a force is used to move an object.Work = force x distance.
work input
An example of force being used to move a stationary object is when you push a door open.
First you must know the amount of force used to move an object. And second, you must know the distance that the object moves
increases the distance an object travels, but reduces the force needed to raise the object to a higher level
There is no such thing as an amount of force needed to move a certain distance. Asteroids, comets, moons, and planets have been moving trillions of miles through space for billions of years with either no force on them at all, or no force in the direction they're moving. You may have heard of Newton's First Law. It says that an object with no forces acting on it keeps moving in a straight line at a constant speed, which is kind of another good way of saying that it can move as far as you want it to with no force on it.
We've spent the last 500 years trying to get used to the idea that no force is required in order for an object to move. Force is required only to change the speed or direction of an object's motion, but the object keeps moving just fine at a constant speed and in a straight line, forever, with no forces on it.
That depends on the object used in question, otherwise it wouldn't do anything to the force nor the distance.
Effort force is a force used to move an object over distance.Which ball will bounce higher lacrosse ball or tennis ball?Read more: Which_ball_will_bounce_higher_lacrosse_ball_or_tennis_ball
-- Measure the force you use to pull the object. You can connect a spring "fish" scale to the object, pull on the scale, and read off the force while the object moves. -- Measure the distance the object moves. Multiply the force by the distance. The product is the energy used to move it. (Be careful with the units.)
work input
When one or more forces act on an object, the object may or may not move. For an object to accelerate, an unbalanced force must be acting (ie the forces must not cancel out). When this is the case, the acceleration of the object will be equal to the force acting divided by the mass of the object. (Newton's Second Law says that "F = m * a").If no force is acting on an object, it will remain at rest or at a constant speed moving in a straight line (according to Newton's First Law). It is not until an unbalance force exists that the object can change its velocity.When the object does move, the work done (energy used) is equal to the force moving it multiplied by the distance it has moved in the direction of the force ("W = F * s").