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Linear motion goes in a straight line (apply laws of physics: a body in motion will stay in motion unless otherwise impeded, most often by some type of friction or another body). Circular motion (or non-linear motion) involves revolutions and creates centrifigal force (measured in G's if you're in the air force)
If the coordinate system is "inertial" (stationary, or moving in a straight line at a constant speed without rotation), then the motion will be the same as in any other inertial system, and Newton's laws of motion apply. If the coordinate system is not inertial (e.g. if it's rotating, or moving in circular path, or accelerating in a straight line), then Newton's laws of motion will not apply if the motion is calculated in the non-inertial frame. For example, if you are sitting at a table in a room that is slowly rotating, and roll a ball across the table, it will appear to move in a curved line across the table. But if you were looking from a stationary point above the room, you would see that the ball rolled in a straight line, and the table was moving under it.
You apply a force to the object.You apply a force to the object.You apply a force to the object.You apply a force to the object.
According to Newton's first law, a mass will remain at rest and a mass in motion will remain in motion in a straight line at constant velocity unless acted on by an unbalanced force. So the relationship between mass and motion is that in order to change a mass's motion, you must apply an unbalanced force.
Klein Bottle for sale. Apply within.
Linear motion goes in a straight line (apply laws of physics: a body in motion will stay in motion unless otherwise impeded, most often by some type of friction or another body). Circular motion (or non-linear motion) involves revolutions and creates centrifigal force (measured in G's if you're in the air force)
Force is basically a term for any object in motion, force is just a term that describes such. Its always been their, always will, Newton was the first to apply it to gravity, and the acceleration of gravity, along with inertia.
It depends on how you apply it.Dont go in a straight line dab along your eye.
No, always apply a primer coat to bare wood.
Yes, the laws of motion apply in outer space.
Yes.
Yes
If the coordinate system is "inertial" (stationary, or moving in a straight line at a constant speed without rotation), then the motion will be the same as in any other inertial system, and Newton's laws of motion apply. If the coordinate system is not inertial (e.g. if it's rotating, or moving in circular path, or accelerating in a straight line), then Newton's laws of motion will not apply if the motion is calculated in the non-inertial frame. For example, if you are sitting at a table in a room that is slowly rotating, and roll a ball across the table, it will appear to move in a curved line across the table. But if you were looking from a stationary point above the room, you would see that the ball rolled in a straight line, and the table was moving under it.
Newton's first law, which states that a body at rest remains at rest and a body in motion remains in motion at constant velocity in a straight line unless acted upon by an unbalanced force.
You apply a force to the object.You apply a force to the object.You apply a force to the object.You apply a force to the object.
Apply acceleration.
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.