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What provides the forces that causes the centripetal acceleration of a satellite in orbit?
When something is moving in circular motion there are two forces that concern the object, excluding forces affecting the motion of the object going around the circle as these would not make the acceleration constant, the force that pushes it inwards towards the centre of circle and the force that pushes it outwards towards the circle, the gravitational field from the mass at the centre of the orbit will provide the inward force, pulling the object inwards towards the centre, and the weight of the satellite will push it outwards towards the edge of the circle Correction- there is only one force- gravity- acting on a satellite in orbit. If it weren't for gravity, the satellite would fly off in a straight line. There is no outward pushing force.
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Does centripetal acceleration causes circular motion?
Yes, centripetal acceleration is the acceleration that keeps an object moving in a circular path. It is always directed towards the center of the circle and is necessary to maintain circular motion.
What causes a centripetal acceleration?
Centripetal acceleration is caused by a change in direction of an object's velocity as it moves in a circular path. This acceleration is directed towards the center of the circle and is necessary to keep the object moving in a curved path rather than in a straight line.
What happens when centripetal acceleration occurs?
When centripetal acceleration occurs, it causes an object to move in a circular path by continuously changing the direction of its velocity. This acceleration is always directed towards the center of the circle and is necessary to balance the outward centrifugal force, keeping the object in its circular motion.
Why does centripetal acceleration occur?
Centripetal means towards the center. Any object moving around in a circle is accelerating towards the center. Remember that acceleration involves a change in velocity, and a specification of "velocity" includes the direction; therefore, since the direction of the movement changes continuously, the object is "accelerating", according to the definition of acceleration.
How can acceleration be produced in a body without applying any external force?
Acceleration can be produced in a body without applying any external force through an internal force, such as tension in a string or a normal force. For example, when an object is swung in a circle on a string, the tension in the string provides the centripetal force that causes the acceleration towards the center of the circle.
What provides the force that causes the centripetal acceleratoin of the satellite in orbit?
The force that provides the centripetal acceleration for a satellite in orbit is the gravitational force between the satellite and the celestial body it is orbiting, such as Earth. This gravitational force acts as the centripetal force that keeps the satellite in its circular path around the celestial body.
What is an example of tangential and centripetal acceleration?
If an object follows a circular path, it must have a centripetal force on it to keep it moving in a circle. Centripetal means "toward the center of the circle". The force causes Centripetal acceleration toward the center witch is along the radius of the circular path. Tangential acceleration occurs at a Tangent to the circular path and is always perpendicular to the centripetal acceleration. Always perpendicular to the radius of the circle.
What is acceleration toward the center of a circle caused by?
The force which causes acceleration towards the centre of a circle is called Centripetal force but what causes it can vary.
Does centripetal acceleration causes circular motion?
Yes, centripetal acceleration is the acceleration that keeps an object moving in a circular path. It is always directed towards the center of the circle and is necessary to maintain circular motion.
What provides the centripetal force that keeps objects in 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.
What causes a centripetal acceleration?
Centripetal acceleration is caused by a change in direction of an object's velocity as it moves in a circular path. This acceleration is directed towards the center of the circle and is necessary to keep the object moving in a curved path rather than in a straight line.
What happens when centripetal acceleration occurs?
When centripetal acceleration occurs, it causes an object to move in a circular path by continuously changing the direction of its velocity. This acceleration is always directed towards the center of the circle and is necessary to balance the outward centrifugal force, keeping the object in its circular motion.
The type of force that causes a satellite to orbit Earth is a?
Its a centripetal force, whose origin/source is gravitation.
Is it true that When you are driving in a car and turn a corner centripetal force pushes you toward the center of the circle around which you are turning?
Yes. That follows from Newton's Second Law: without a centripetal force, there could be no centripetal acceleration. Since the car accelerates towards the center of the circle, it follows that there must be a force that causes this acceleration.
How and why is Centrifical force involved in a spinning top?
Correctly termed centripetal acceleration, this phenomenon causes the top to resist accelerating in a different axis.
Why does centripetal acceleration occur?
Centripetal means towards the center. Any object moving around in a circle is accelerating towards the center. Remember that acceleration involves a change in velocity, and a specification of "velocity" includes the direction; therefore, since the direction of the movement changes continuously, the object is "accelerating", according to the definition of acceleration.
When earth angular velocity increase then gravitational acceleration increase?
Let's be very accurate when describing accelerations in this question. Consider a person at the equator. The gravitational force of attraction on him is constant whether or not the earth is rotating. This acceleration is called the acceleration due to gravity (ag) Now, since the earth is rotating about its axis, there has to be a centripetal force on the person. It is the gravitational force which provides the centripetal force. Thus, there is a centripetal acceleration on the person (ac) Finally, the rest of the gravitational force causes the person to accelerate towards earth. This is called the acceleration of free fall (af) This gives ag = ac + af ac is given by the equation: ac = w2r where w is the angular velocity and r is the radius of rotation If the angular velocity of the earth increases, centripetal acceleration will increase. af = ag - w2r Therefore, the acceleration of free fall will decrease.
