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What can be a centripetal force Friction tension gravity or all?
A centripetal force is necessary to keep an object moving in a circular path. This force can be provided by friction, tension, or gravity, depending on the situation.
What is true about centripetal force Check all that apply.?
Centripetal force always acts inward towards the center of rotation. Centripetal force is required to keep an object moving in a circular path. Centripetal force is a real physical force acting on an object in circular motion. Centripetal force can be provided by tension, friction, or gravitational attraction.
What is the manifestation of centripetal force in a stone tied to a string and whirled horizontally?
The centripetal force in this scenario is manifested as tension in the string. The tension in the string acts as the centripetal force required to keep the stone moving in a circular path. If the tension in the string is too weak, the stone will not be able to maintain its circular motion and will fly off tangentially.
How can centripetal force affects a person on a playground swing?
Centripetal force is responsible for keeping a person on a swing moving in a circular path. As the swing reaches the highest point in its arc, the tension in the chains provide the centripetal force necessary to keep the person moving in a circular motion. When the swing is at its lowest point, the tension in the chains decreases as the centripetal force needed is also reduced.
What supplies the centripetal force?
The centripetal force is supplied by the tension in a string, gravitational force, friction, or any force pointing towards the center of the circular motion that keeps an object moving in a curved path.
What can be a centripetal force Friction tension gravity or all?
A centripetal force is necessary to keep an object moving in a circular path. This force can be provided by friction, tension, or gravity, depending on the situation.
What is true about centripetal force Check all that apply.?
Centripetal force always acts inward towards the center of rotation. Centripetal force is required to keep an object moving in a circular path. Centripetal force is a real physical force acting on an object in circular motion. Centripetal force can be provided by tension, friction, or gravitational attraction.
What is the manifestation of centripetal force in a stone tied to a string and whirled horizontally?
The centripetal force in this scenario is manifested as tension in the string. The tension in the string acts as the centripetal force required to keep the stone moving in a circular path. If the tension in the string is too weak, the stone will not be able to maintain its circular motion and will fly off tangentially.
How can centripetal force affects a person on a playground swing?
Centripetal force is responsible for keeping a person on a swing moving in a circular path. As the swing reaches the highest point in its arc, the tension in the chains provide the centripetal force necessary to keep the person moving in a circular motion. When the swing is at its lowest point, the tension in the chains decreases as the centripetal force needed is also reduced.
What supplies the centripetal force?
The centripetal force is supplied by the tension in a string, gravitational force, friction, or any force pointing towards the center of the circular motion that keeps an object moving in a curved path.
What provides the centripetal force needed to keep the stopper moving in a circle?
The tension in the string provides the centripetal force needed to keep the stopper moving in a circle. This tension pulls the stopper towards the center of the circle, maintaining the circular motion.
Which are some false statements about centripetal force?
Centripetal force does not exist on its own as a standalone force, but rather it is a net force that acts towards the center of circular motion. Centripetal force is not a new or separate force but rather is provided by other forces in a system, such as tension, gravity, or friction. Centripetal force does not contribute to the speed of an object in circular motion, but rather acts to change the direction of motion.
What effects gravity and centripetal combined on the same orbiting path?
I'm not sure exactly what you are asking, but centripetal force is just a name given to any force that causes circular motion. Swing a rock on the end of a string and the string tension is the centripetal force. Drive a car around a flat circular track and the friction between the tires and the road is the centripetal force. Put a satellite in orbit and gravity is the centripetal force.
What provides the centripetal force for a basket being whirled in a vertical circle?
The tension force in the string provides the centripetal force for a basket being whirled in a vertical circle. The tension force acts towards the center of the circle, keeping the basket moving in a circular path.
Centripetal Force is that force which we apply on the object?
Actually, centripetal force is the inward force that keeps an object moving in a circular path. It is not a force that we apply to the object, but rather a force that is required to maintain the object's circular motion. Examples of centripetal force include tension in a string for a swinging object or friction for a car going around a curve.
Why can you consider the weight of the hooked masses as equal to the centripetal force?
The force of gravity on the hooked masses supplies the tension in the string which in turn supplies the centripetal force that keeps the body rotating.It would be better to say that the weight of the hanging masses IS the centripetal force that keeps the body revolving.... and so the two forces are equal because there is really on one force.
When a body moves in a circle how force takes part there?
For circular motion to occur, there must be a centripetal force( a force that is always directed towards the centre of the circle). The centripetal force is defined as F = mv2/r Where F is the centripetal force, m is the mass of the orbiting body, v is the velocity of the body, and r is the distance to the centre of the circle. If you whirl a conker above your head, the centripetal force is provided by the tension of the string. For a planet orbiting the sun, the centripetal force is provided by gravity.
