As the moon orbits the Earth, the force of gravity acting upon the moon provides the centripetal force required for circular motion.
That's the gravitational attraction between the Earth's mass and the Moon's mass.
all objects in this universe are attracted towards each other and we call that force of attraction gravity. just imagine there are two balls in your hands, one big and other one small. the big ball is earth while the small one is moon. now join both with a piece of thread such that the two balls can be separated from each other only by cutting the thread. now come out of your imaginative world and accept that in real life also the moon and earth are joined to each other not by apiece of thread but by centripetal force if this force is removed both earth and moon will fly off in a line tangent to their circular path. now i hope you have understood this concept.
Gravity provides a centripetal force on the Moon, helping it stay in orbit around Earth. TRUE!!! -iRLANDA♥
Once an object is set into motion in a given direction it will continue in that direction unless a force prevents it from doing so. If you swing a ball around and around on the end of a string, it goes in a circle at the end of the string. The thing that keeps the ball from flying off is the string pulling on it. If you let go of the string the ball will sail off in a straight line in the direction it was moving at the moment you release the string.The ball wants to go in a straight line, the thing that prevents that is the string pulling on it. The string is exerting a centripetal force on the ball preventing it from flying away.Just like the ball, a satellite rotating around the Earth would fly off into space in a straight line if something weren't pulling it back toward the Earth. Earth's gravity is exerting a centripetal force, pulling on it, preventing the satellite from sailing away.
NATURE
.005946 m/s/s
The application are any time you want something to move in a path that's not straight, you need centripetal force to make it curve away from moving straight. Like if you want to drive your car around a curve or turn a corner.
all objects in this universe are attracted towards each other and we call that force of attraction gravity. just imagine there are two balls in your hands, one big and other one small. the big ball is earth while the small one is moon. now join both with a piece of thread such that the two balls can be separated from each other only by cutting the thread. now come out of your imaginative world and accept that in real life also the moon and earth are joined to each other not by apiece of thread but by centripetal force if this force is removed both earth and moon will fly off in a line tangent to their circular path. now i hope you have understood this concept.
If you mean centripetal force, I was surprised when I saw that the water was not spilled when it was swung around in a circle, but then I learned that centripetal force kept it inside.
Centripetal force is a force that is required to exist to have a circular motion. Thus the centripetal force can be any force that is able to accomplish this task. Examples of centripetal forces are the gravitational force, the electromagnetic force, the frictional force, or the constraint forces. The centripetal force depends on the system that is involved in be in a spin of a rigid body, or of a planetary motion, etc. Each particular system that requires a rotation or a spin needs to have a corresponding centripetal force.
The centripetal force is what draws the object towards the centre. The centrifugal force is what draws the object away from the centre. Generally when one speaks of centrifugal force, one means only that it takes the centripetal force to keep moving the object out of its straight direction of travel. If you remove the centripetal force in such an example, such as when the object is in a circular orbit around another body, then the result will be that the orbiting body will continue traveling in a straight line at a tangent to the circular path it had been following.
Centripetal force is a force that makes a body follow a curved path. An example of centripetal force is gravity making something in space orbit Earth. Mud flying in circles from a tire going down the road is centripetal force.
Centripetal force is the force that keeps an object moving in a circular path. It always acts towards the center of the circle. In a circular orbit, the centripetal force is provided by the gravitational force between the orbiting object and the object it is moving around. If there were no central force, the object would move in a straight line tangent to the circle.
If you spin around rally fast (watch out for people and objects around you!), then you let your arms move freely. Your arms should raise. That is centripetal force for you!
Whenever something is moving in a circular motion, such as the air in a cyclone, there has to be some inward force, called centripetal force, that keeps that path curved and prevents it from continuing on in a straight line. In a cyclone it is the pressure gradient, with low pressure at the center. This pulls air inward through most of the cyclone, but when it gets tot he center it is rotating around the center so fast that the pressure gradient cannot pull it in further, so the strong winds only reach to just outside the eye. Instead, air gently descend from above.
The (strong) tendency of light to travel in a straight line.
Gravity provides a centripetal force on the Moon, helping it stay in orbit around Earth. TRUE!!! -iRLANDA♥
Once an object is set into motion in a given direction it will continue in that direction unless a force prevents it from doing so. If you swing a ball around and around on the end of a string, it goes in a circle at the end of the string. The thing that keeps the ball from flying off is the string pulling on it. If you let go of the string the ball will sail off in a straight line in the direction it was moving at the moment you release the string.The ball wants to go in a straight line, the thing that prevents that is the string pulling on it. The string is exerting a centripetal force on the ball preventing it from flying away.Just like the ball, a satellite rotating around the Earth would fly off into space in a straight line if something weren't pulling it back toward the Earth. Earth's gravity is exerting a centripetal force, pulling on it, preventing the satellite from sailing away.