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The object's velocity, which counteracts the gravitational force pulling it inward, maintains its orbit. The centripetal force acts as a balancing force keeping the object moving in a circular path around the center of mass.
There is actually only one force: a centripetal force, that pulls it inward. There can't be a balancing outward force; in fact, if forces were balanced, the object would move in a straight line, not in a circle.
Sometimes a "centripetal force" (outward-pulling force) is mentioned, and it can indeed be useful for some calculations, but it is actually a ficticious force.
For an object to remain at rest, the total force on the object - the vector sum of the individual forces - must be zero.
If there are indeed exactly two forces, then they would have to be in opposite directions, and have the same magnitude, to cancel each other.
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What two motions keep an object in orbit?
An object in orbit is kept in orbit due to its forward motion, which creates a centrifugal force that balances the gravitational pull towards the central body it is orbiting around. The combination of the object's inertia trying to travel in a straight line and the gravitational attraction results in a stable orbit.
Which two forces of a result is the orbit of the planet?
The two forces that result in the orbit of a planet are gravitational force, which pulls the planet towards the center of the star it is orbiting, and the planet's tangential velocity, which keeps it moving in a curved path around the star. These two forces are perfectly balanced in a stable orbit.
What two forces work together to keep the planets in orbit around the sun?
Gravity and inertia work together to keep planets in orbit around the sun. Gravity from the sun pulls the planets towards it, while the planets' inertia keeps them moving forward in their orbits.
What two forces keep the moon and all other satellites in orbit around earth?
Gravity and inertia are the two forces that keep the moon and other satellites in orbit around Earth. Gravity pulls the moon towards Earth, while the moon's inertia keeps it moving forward in a curved path, resulting in a stable orbit.
What is the two things that keep the earth in its orbit around the sun?
The two things that keep the Earth in its orbit around the Sun are the gravitational pull of the Sun, which creates a centripetal force that keeps the Earth moving in a curved path, and the inertia of the Earth, which causes it to continue moving in a straight line unless acted upon by an external force. Together, these two forces balance each other to maintain the Earth's orbit.
What two motions keep an object in orbit?
An object in orbit is kept in orbit due to its forward motion, which creates a centrifugal force that balances the gravitational pull towards the central body it is orbiting around. The combination of the object's inertia trying to travel in a straight line and the gravitational attraction results in a stable orbit.
What two forces keep a planet in orbit?
Gravity and Enertia (Not that sure on the spelling of the last one)
What are the two forces that act together to keep a body in orbit around another body?
gravity and force
Which two forces of a result is the orbit of the planet?
The two forces that result in the orbit of a planet are gravitational force, which pulls the planet towards the center of the star it is orbiting, and the planet's tangential velocity, which keeps it moving in a curved path around the star. These two forces are perfectly balanced in a stable orbit.
What two forces work together to keep the planets in orbit around the sun?
Gravity and inertia work together to keep planets in orbit around the sun. Gravity from the sun pulls the planets towards it, while the planets' inertia keeps them moving forward in their orbits.
What two forces keep the moon and all other satellites in orbit around earth?
Gravity and inertia are the two forces that keep the moon and other satellites in orbit around Earth. Gravity pulls the moon towards Earth, while the moon's inertia keeps it moving forward in a curved path, resulting in a stable orbit.
What are the 2 forces that able an object to stay in orbit?
There are two forces responsible for an object to stay in orbit Namely-- 1-Centripetal Force --Which pulls any object toward the center 2-Centrifugal Force --Which push any object away from the center
What two forces can make an object move?
Two forces that can make an object move are external forces, such as pushing or pulling it, and gravitational forces acting on the object.
What are the effects on an object when two or more opposing forces of unequal mangnitudes are simultaneously applied to the object?
If there are two or more unequal forces acting on an object then the object will be acting on the forces. ^_^
What is a path an object follows as it moves around another object?
The path an object follows as it moves around another object is called an orbit. Orbits are typically elliptical in shape and are governed by the gravitational forces between the two objects.
If there are two equal and opposite forces on something you say the forces are?
If there are two equal and opposite forces acting on an object, these forces are in equilibrium. This means that the forces are balanced and there will be no change in the object's motion.
What two opposing forces keep the moon from orbiting?
None. The moon orbits the Earth, Earth orbits the Sun. Inertia and the gravity keep the moon in the Earth's orbit.
