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∙ 14y agoZero
This is a very important principle, which the questioner should take time to think about.
Wiki User
∙ 14y agoIn space, there is no air resistance to slow down an object in motion, so once you give the ball an initial push or force, it will keep moving at a constant velocity without any additional force needed to overcome friction or resistance.
No, drag force only acts on objects moving through a fluid medium, such as air or water. It is a resistive force that opposes the motion of the object. Objects moving through a vacuum, for example, would not experience drag force.
Force. Change in speed and direction is change in velocity. Change is velocity is called acceleration a=F/m.. The amount of change is the amount of acceleration and that depends inversely on the mass and directly on the force.
Yes, a force is required to stop an object from moving. This force is typically applied in the opposite direction to the object's motion, causing it to slow down and eventually come to a stop.
No, centripetal force is not acting when a body is moving in a straight line. Centripetal force is required to keep an object moving in a curved path.
To stop a moving object, you need a force acting in the opposite direction of its motion. This force can be applied through mechanisms like friction, air resistance, or physical contact. The amount of force required depends on the object's mass and velocity.
No, drag force only acts on objects moving through a fluid medium, such as air or water. It is a resistive force that opposes the motion of the object. Objects moving through a vacuum, for example, would not experience drag force.
No, there is not.
Force. Change in speed and direction is change in velocity. Change is velocity is called acceleration a=F/m.. The amount of change is the amount of acceleration and that depends inversely on the mass and directly on the force.
Yes, a force is required to stop an object from moving. This force is typically applied in the opposite direction to the object's motion, causing it to slow down and eventually come to a stop.
the same force and dahni is awesome
No, centripetal force is not acting when a body is moving in a straight line. Centripetal force is required to keep an object moving in a curved path.
To stop a moving object, you need a force acting in the opposite direction of its motion. This force can be applied through mechanisms like friction, air resistance, or physical contact. The amount of force required depends on the object's mass and velocity.
No, it is not harder to accelerate a moving object. The initial motion of the object does not affect the force required to accelerate it further. The force required to accelerate an object depends on its mass and the desired acceleration.
The best, purest answer is: Because no force at all is required to keep a moving object moving.
If the mass is already moving, then no force is required to move it any desired distance,and if it's not moving, then any force will start it moving. We'll say that there's no definiterelationship between force, mass, and distance.
An object has a general tendency to keep moving - that's how our Universe works. No force is required to keep an object moving - unless there is another force that slows it down. Here on Earth, there are usually frictional forces that slow objects down, and therefore a force is required to counteract the frictional forces.
depends on the mass of the train