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No, a force is not a motion. A force may produce motion of a mass.
The amount of force required to change the motion of an object depends on its mass and the desired change in motion (acceleration). This relationship is described by Newton's second law of motion, which states that force is equal to mass multiplied by acceleration (F = ma). Therefore, a larger mass or a greater change in motion will require a greater force.
Force is the product of mass and acceleration, F= ma.
Newton's 1st law says that an object in motion will stay in motion. So no external force is required. In most instances, there are already external forces, so in real world settings most objects in motion will require a force to stay in motion, because there are other external forces (like friction and gravity) that are already applied to that object.
No, motion is not a force. Motion is a change of coordinates. However, motion usually is a result of applying a force.
Newton got the idea of forces from change in motion, acceleration. Aristotle had the idea no force no motion, Newton recognized inertial motion without force.
Aristotle believed v = k(F/R) where speed is proportional to motive force, and inversely proportional to resistance.
af Example: a hammer falls faster than a feather Galileo: Proved that an objects mass has no effect on its rate of acceleration as it falls. What causes things to fall at different rates here on earth is air resistance. Aristotle: Believed that heavier objects fall faster than lighter object af Example: a hammer falls faster than a feather Galileo: Proved that an objects mass has no effect on its rate of acceleration as it falls. What causes things to fall at different rates here on earth is air resistance. Aristotle: Believed that heavier objects fall faster than lighter object
Motion does not require a force; if no force is acting on a body in motion, its motion will be constant. A force is required to change motion, and any unbalanced force acting on an object can do this.
This is according to newton's II law of motion
No, a force is not a motion. A force may produce motion of a mass.
Aristotle discovered gravitational potential theory.
The amount of force required to change the motion of an object depends on its mass and the desired change in motion (acceleration). This relationship is described by Newton's second law of motion, which states that force is equal to mass multiplied by acceleration (F = ma). Therefore, a larger mass or a greater change in motion will require a greater force.
Force is the product of mass and acceleration, F= ma.
Newton's 1st law says that an object in motion will stay in motion. So no external force is required. In most instances, there are already external forces, so in real world settings most objects in motion will require a force to stay in motion, because there are other external forces (like friction and gravity) that are already applied to that object.
No, motion is not a force. Motion is a change of coordinates. However, motion usually is a result of applying a force.
the concept of force is applicable when considering an interaction between multiple bodies. the concept of motion on the other hand is applicable for multiple non-interacting bodies.(multiple because we require a frame of reference)