No.
Gravity is the force that pulls objects towards the center of the Earth, while centrifugal force is the outward force acting on an object moving in a circular path. On the surface of the Earth, gravity is much stronger than centrifugal force, which is why objects remain grounded. At the equator, where the centrifugal force is strongest due to the Earth's rotation, it partially counteracts gravity making objects slightly lighter.
In the context of centrifugal force, "G" is a unit of measurement representing the force of gravity. When something experiences centrifugal force of 2000 G, it means the force applied to it is 2000 times that of Earth's gravitational force.
The gravity force balancing the centrifugal force is mv2/r = mg. The centrifugal force is Del.cP = cmDel.V = mcv/r cos(VR), mv2/r = cmv/r cos(VR) is the Continuity Condition of stable orbit.
One example of centrifugal force is when a car turns a corner at high speed and the passengers feel pushed away from the center of the car. This is due to the centrifugal force pushing them outward as the car accelerates around the curve.
Swinging your arms around in circles quickly is an example of centripetal force, not centrifugal force. Centrifugal force is the apparent outward force experienced in a rotating reference frame, while centripetal force is the force that keeps an object moving in a circular path.
A launched projectile is not an example of centrifugal force. It is an example of centripetal force.
Gravity is the force that pulls objects towards the center of the Earth, while centrifugal force is the outward force acting on an object moving in a circular path. On the surface of the Earth, gravity is much stronger than centrifugal force, which is why objects remain grounded. At the equator, where the centrifugal force is strongest due to the Earth's rotation, it partially counteracts gravity making objects slightly lighter.
Two reasons: 1. Different distances from the Earth's center; 2. A "centrifugal force" that counteracts gravity in part.Two reasons: 1. Different distances from the Earth's center; 2. A "centrifugal force" that counteracts gravity in part.Two reasons: 1. Different distances from the Earth's center; 2. A "centrifugal force" that counteracts gravity in part.Two reasons: 1. Different distances from the Earth's center; 2. A "centrifugal force" that counteracts gravity in part.
yes it is
In the context of centrifugal force, "G" is a unit of measurement representing the force of gravity. When something experiences centrifugal force of 2000 G, it means the force applied to it is 2000 times that of Earth's gravitational force.
Isaac newton
The gravity force balancing the centrifugal force is mv2/r = mg. The centrifugal force is Del.cP = cmDel.V = mcv/r cos(VR), mv2/r = cmv/r cos(VR) is the Continuity Condition of stable orbit.
One example of centrifugal force is when a car turns a corner at high speed and the passengers feel pushed away from the center of the car. This is due to the centrifugal force pushing them outward as the car accelerates around the curve.
Swinging your arms around in circles quickly is an example of centripetal force, not centrifugal force. Centrifugal force is the apparent outward force experienced in a rotating reference frame, while centripetal force is the force that keeps an object moving in a circular path.
Gravity is the force that pulls objects towards each other, causing them to orbit around a common center of mass. Centrifugal force is the force that pushes objects away from the center of rotation, counteracting the gravitational force. The balance between these two forces determines the stable orbits of celestial bodies in our solar system.
gravity not to sure tho
Ask your mum!