The gravitational attraction from the Earth.
The gravitational attraction from the Earth.
The gravitational attraction from the Earth.
The gravitational attraction from the Earth.
The mutual forces of gravitation between the Earth and the Moon provide the
centripetal force that maintains the orbit. This is true of every pair of orbiting
bodies in the solar system.
On a smaller scale, electrically charged bodies can also maintain orbit, on account of
the mutual electrostatic forces between them.
The centripetal force acting on the moon is the gravity from earth.
The mutual force of gravitational attraction between the earth and moon.
That's the mechanism responsible for all orbital motion, anywhere you look.
The gravitational attraction from the Earth.
The Earth's gravity.
The Earth's gravitational attraction.
Direction
it would stay in place because the earth is its centripetal force and if it doesnt have the earth it wouldn't orbit
Centripetal force wants to move something towards the centre. So in a satellites case that would be the Gravity of the Earth. If you had a rock tied to a string you were spinning around, the Centripetal Force would be the tension in the string acting towards the centre.
As the moon orbits the Earth, the force of gravity acting upon the moon provides the centripetal force required for circular motion.
zero velocity =)
i have the same question and im putting predictable changes
No
Centripetal force is the resultant force acting towards the centre of orbit of an object undergoing uniform circular motion.
Centripetal force is always directed towards the center of the circle of motion that an object is traveling in.
The centripetal force
direction
Any net force will change an object's velocity. In the case of a centripetal force, it changes the direction of the movement, and therefore its velocity.
At the instant the centripetal force disappeared, the moon would take off in a straight line into space, and would never be seen or heard from again.
Motion requires a force acting upon an object. When the object changes so does motion.
Not balanced. The net force acting on the object is not zero.
Balanced forces do not change its motion (no acceleration). Unbalanced forces changes the motion of the object (acceleration).
A force acting on the ball, at an angle to its line of motion, will cause its direction of motion to change.
Centripetal motion refers to the inward force that keeps an object moving in a curved path. This force is always directed toward the center of the circular path. It is responsible for keeping objects like planets in their orbits around the sun.