-- Momentum and centrifugal force are similar in the sense that both of them often arise
during a discussion of mechanics, kinematics, elementary newtonian physics, etc.
-- Momentum and centrifugal force are different in the sense that momentum exists,
can be measured, has magnitude and direction, and is conserved, whereas centrifugal
force is entirely fictitious and non-existent.
A force is required to change momentum.An "impulse" refers to the amount of momentum transferred; impulse can be defined as force x time (more precisely: the corresponding integral).
Always centrifugal is the reaction force for centripetal
At the center of the Earth, the centrifugal force is zero because all mass is evenly distributed around that point, resulting in a gravitational force that is balanced. As you move away from the center, both gravitational and centrifugal forces increase. At the surface of the Earth, the centrifugal force is present due to the rotation of the planet.
No, centrifugal force is greater at the poles than at the equator because the Earth's rotation causes a bulging effect at the equator that counteracts the centrifugal force. This is why objects weigh slightly less at the equator compared to the poles.
Magnets cannot directly cause centrifugal force. Centrifugal force is an outward force experienced in a rotating reference frame, while magnets produce magnetic force due to the alignment of magnetic moments within the material. These are two different phenomena.
Force is the rate of change of momentum. When a force is applied to an object, it causes the object's momentum to change. The greater the force applied, the greater the change in momentum experienced by the object.
Force is directly related to the change in momentum of a body, as described by Newton's second law of motion. The force acting on an object causes a change in its momentum by accelerating or decelerating it. The greater the force applied, the greater the change in momentum experienced by the body.
Reactive centrifugal force is not the same thing as centrifugal force. Reactive centrifugal force is the reaction force. It is the reaction force reacting to a centripetal force.
Centrifugal force and centripetal force are both related to inertia. Centrifugal force is the outward "apparent" force experienced in a rotating frame of reference, caused by inertia trying to keep an object moving in a straight line. Centripetal force is the inward force that keeps an object moving in a circular path, acting in opposition to the centrifugal force and also related to inertia as it is required to overcome an object's tendency to move in a straight line.
Change of the body's momentum = (force on the body) x (length of time the force acts on it)
Centrifugal force is the perceived outward force experienced by an object in a rotating reference frame, while centripetal force is the force that keeps an object moving in a circular path towards the center of rotation. The two forces are related in that centripetal force is responsible for providing the necessary inward acceleration to keep an object moving in a circular path, while centrifugal force is an apparent outward force experienced due to inertia.
Momentum is the product of an object's mass and velocity. When an object with momentum experiences a change in velocity, a force is required to cause that change. This force is directly related to the rate of change of momentum and is described by Newton's second law, which states that force is equal to the rate of change of momentum.
Centrifugal force is the apparent outward force experienced in a rotating reference frame. It increases with acceleration and decreases with deceleration because it is directly proportional to the mass of the object and the square of the velocity. Traction does not directly affect centrifugal force, as it is a force related to the motion of an object in a curved path.
Centrifugal force is a measure of the opposite reaction of a centripetal force.
The momentum of an object is directly related to its stopping distance. A larger momentum means more force is needed to stop the object, resulting in a longer stopping distance. Conversely, a smaller momentum requires less force and results in a shorter stopping distance.
The centrifugal force is an apparent (ficticious) force, caused by a rotational movement. The amount of the apparent centrifugal force can be calculated by the same formula as the amount of the real centripetal force.
Centrifugal force is often confused with centripetal force.