"Acceleration" does not mean "speeding up". Acceleration means any change
in the speed or direction of motion. An object with no acceleration moves at a
constant speed in a straight line. If its path is not straight, then the direction
of its motion changes, which fits the definition of acceleration.
The acceleration towards the inside of a curved path is called centripetal acceleration. It is always directed towards the center of the circular path and is necessary to keep an object moving in a curved trajectory instead of flying off in a straight line.
Centripetal acceleration.
centripetal acceleration
Centripetal acceleration.
That's called 'centripetal acceleration'. It's the result of the centripetal forceacting on the object on the curved path.
The acceleration toward the center of a curved path is called centripetal acceleration. It is responsible for keeping an object moving in a circular path by continuously changing its direction towards the center of the circle. The magnitude of centripetal acceleration is given by the formula a = v^2/r, where v is the velocity of the object and r is the radius of the circular path.
Centripetal acceleration is caused by a change in direction of an object's velocity as it moves in a circular path. This acceleration is directed towards the center of the circle and is necessary to keep the object moving in a curved path rather than in a straight line.
Acceleration
Centripetal acceleration.
That's called 'centripetal acceleration'. It's the result of the centripetal forceacting on the object on the curved path.
Acceleration
Objects traveling in a circular path accelerate towards the center of the circle due to centripetal acceleration. This acceleration is needed to keep the object moving in a curved path.
The acceleration toward the center of a curved path is called centripetal acceleration. It is responsible for keeping an object moving in a circular path by continuously changing its direction towards the center of the circle. The magnitude of centripetal acceleration is given by the formula a = v^2/r, where v is the velocity of the object and r is the radius of the circular path.
The centripetal acceleration points towards the center of the circular motion. It is responsible for keeping an object moving in a circle by continuously changing the object's direction.
A centripetal force does.
Examples of centripetal acceleration include a car moving around a curve, a spinning top, or a satellite orbiting around Earth. These objects experience centripetal acceleration because their velocity is constantly changing direction towards the center of the circular path they follow.
Yes, a particle moving with uniform speed along a curved path can have acceleration because acceleration is the rate of change of velocity, which includes changes in direction even if speed remains constant. In this case, the acceleration would be due to the change in velocity direction as the particle moves along the curved path.
Actually, objects moving around a circular path have two accelerations i.e. radial acceleration and tangential acceleration. Radial acceleration is towards the radius whereas tangential acceleration is the acceleration along the direction of the tangent to the path of the motion. So, I would say yes, they are accelerated towards the outer edge of the circle.
If a charged particle moves in a magnetic field then Lorentz magnetic force acting will be perpendicular to its movement and so the particle will be taken along a curved path. Lorentz force will be towards the centre of the curved path. Any force facing towards the centre of the curved path is named as centre seeking or centripetal force.
i think itscentripetal force