Revolution
The Earth revolves around the sun, making a full rotation every calendar year.
The force that makes things float is called buoyancy.
if the object is too close to the eye the distance bteween the object and retina is less and hence the image of the object is not formed on the retina so we cannot see the object properly
1. Whirling of a stone tied to a string: The string provides necessary centripetal force for the rotation of stone.2. Turning of vehicles in a circular track: The friction due to the tyres in case of levelled road and the angle of inclination of tracks in case of banked tracks provides the necessary centripetal force.
The rotation of the Earth makes the stars appear to move in the sky.
volume is the amount of space a object occupies therefore it is a property
Centripetal force is the force that makes an object follow a circular path by pulling it towards the center of the circle.
Centripetal force acts on an object in circular motion because of the object's inertia, which makes it want to continue moving in a straight line. The force pulls the object towards the center of the circle, keeping it in its circular path.
Rotation.
The centripetal force is the force that acts towards the center of a circular path, keeping an object moving in that path. It can be thought of as a push or a pull, depending on the context, as long as it maintains the object's circular motion.
centripetal
1/8th mile per hour.
That's what it's all about: about rotation. The "inertia" part is because it is comparable to the linear inertia: that's what makes it difficult to change an object's rotation.
Centripetal-Brittany Goraczkowski
The streaking stars rotation phenomenon in the night sky is caused by the Earth's rotation on its axis. This movement makes the stars appear to move across the sky in a circular pattern, creating the streaking effect.
Centripetal force can be thought of as a force that acts towards the center of a curved path, allowing an object to move in a circular motion. It can be either a push or a pull, depending on the direction of the object's motion.
The momentum of inertia, also known as rotational inertia, is a measure of an object's resistance to changes in its rotational motion. It depends on the mass and distribution of mass of an object relative to its axis of rotation. A larger momentum of inertia makes it harder to accelerate or decelerate the object's rotation.
Stopping