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.
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.
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.
Force = mass in kg x acceleration in m/s2.
The measure of the amount of force needed to move an object a certain distance is known as work.
Work
Work = force x distance
Nothing
Work is applied to an object and the object is moved over a distance in the same direction of the applied force.
Work = Force * Displacement. Therefore Force = Work / Displacement = 160 J / 8 m = 20 N (Note that the force and the displacement have to be in the same direction, or else the components of either of them will have to be calculated in the direction of the other)
A force is needed to move an object.
it moves ----------> there for if you were to push the object it will go <--------
If you apply force to an object, you accelerate it. If you apply the force in the direction that the object is moving, you speed it up. If you apply it in the opposite direction, you slow it down. If you apply the force in another direction than the object is moving in you will change the direction of the objects motion. The amount of acceleration is given by a = F/m where a is acceleration, F is force and m is the mass of the object.
Work is applied to an object and the object is moved over a distance in the same direction of the applied force.
the less force is needed.
force
force
force
The magnitude and direction of the force applied to an object, the magnitude and direction of the distance moved by the object.
The magnitude and direction of the force applied to an object, the magnitude and direction of the distance moved by the object.
An unbalanced force
object,place,force,direction,speed and acceleration
A force.
Any force will do, but the larger the force, the faster will the object stop. The force, of course, has to be applied in the direction opposite to the movement.
weight is the force gravity exerts on an object. Therefore, it means that the greater weight an object has, the greater force is needed to move it in the opposite direction.