Centripetal force which make the objects move in a circular paths the old name was centrifugal force but this isn`t used anymore by the professors of physics.
The centripetal force is the force that holds an object in a circular motion. It acts towards the center of the circle and keeps the object moving in a curved path. Without this force, the object would move in a straight line.
The centripetal force is the force that holds an object in circular motion. It acts towards the center of the circle, keeping the object moving in a curved path. It is necessary to overcome the object's inertia and keep it from flying off in a straight line.
A force that holds a moving object in a circular path is a "centripetal force". In the case of an orbiting planet, moon, artificial satellite etc., the mutual force of gravitation between the orbiting body and the central body is the centripetal force.
centripetal- Dashun Walden
The force that keeps an object in orbit around another object is gravity. Specifically, it is the gravitational pull between the two objects that keeps them moving in a curved path instead of flying off into space. This balance between the object's inertia and the gravitational force keeps it in orbit.
The centripetal force is the force that holds an object in a circular motion. It acts towards the center of the circle and keeps the object moving in a curved path. Without this force, the object would move in a straight line.
The centripetal force is the force that holds an object in circular motion. It acts towards the center of the circle, keeping the object moving in a curved path. It is necessary to overcome the object's inertia and keep it from flying off in a straight line.
A force that holds a moving object in a circular path is a "centripetal force". In the case of an orbiting planet, moon, artificial satellite etc., the mutual force of gravitation between the orbiting body and the central body is the centripetal force.
centripetal- Dashun Walden
The force that keeps an object in orbit around another object is gravity. Specifically, it is the gravitational pull between the two objects that keeps them moving in a curved path instead of flying off into space. This balance between the object's inertia and the gravitational force keeps it in orbit.
It's the mutual forces of gravitational attraction between the Earth and each object.
Gravity is the force that pulls or holds objects to the surface of the Earth.
gravity
Gravity!
Gravity cannot make objects move on their own, unless they are on a slope or incline. If you mean to ask how gravity holds objects down then that is a completely different question. The more mass a single object has, the more it pulls other objects towards that object. So therefore, the bigger the object the more the gravitational pull.
The force that holds back a sliding object is friction. Friction is the resistance that occurs when two surfaces rub against each other, causing the object to slow down or stop.
Weight is a force equal to the product of an object's mass and gravity. Gravity in this context is not a force but an acceleration. Near the Earth's surface, that acceleration is 9.8 m/s², regardless of the mass.