An external force. Force = mass x acceleration
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.
False. A balanced force does not accelerate an object, but an unbalanced force is required to change the motion of an object.
No, it takes the same force to accelerate a moving object as it does to accelerate a stationary object, according to Newton's first law of motion. The force required depends on the mass of the object and the desired acceleration.
The force required to accelerate an object increases as the mass of the object increases. This relationship is described by Newton's second law of motion, which states that force is directly proportional to mass and acceleration. So, as mass increases, more force is needed to achieve the same acceleration.
The centripetal force acts to accelerate the object toward the center of the circle. This force is directed inward and is required to keep the object moving in a circular path. It is provided by tension, gravity, friction, or any force that is directed towards the center of rotation.
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.
False. A balanced force does not accelerate an object, but an unbalanced force is required to change the motion of an object.
No, it takes the same force to accelerate a moving object as it does to accelerate a stationary object, according to Newton's first law of motion. The force required depends on the mass of the object and the desired acceleration.
No. To have an acceleration, an UNBALANCED force is required.
2
You get the force required to accelerate the object
The force required to accelerate an object depends on the object's mass. Newton's second law states that Force = Mass * Acceleration. Re-written to solve for acceleration, this becomes Acceleration = Force/Mass. Basically, this means that the more mass an object has, the more force is required to accelerate it. Also, the faster you want to accelerate the object, the more force you will need.
The force required to accelerate an object increases as the mass of the object increases. This relationship is described by Newton's second law of motion, which states that force is directly proportional to mass and acceleration. So, as mass increases, more force is needed to achieve the same acceleration.
An object will accelerate in the direction of the net force acting on that object.
One newton.
Accelerate, motion is generated by applying force to mass.
... to accelerate.... to accelerate.... to accelerate.... to accelerate.