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What is the reaction force to Centripetal Force within a Centrifuge If centrifugal forces are fictitious?
Always centrifugal is the reaction force for centripetal
What is the reaction force to centripetal force in a centrifuge?
The centripetal force is the force with which the centrifuge pushes some object inwards. The opposite force, of course, is the object pushing the centrifuge outwards.
Can torus attain gravity by centrifugal motion?
acceleration due to rotation determined by equation: a = (v^2)/r where: v = velocity in a circle (m/s) r = radius (m) a = acceleration (m/s)/s the reaction at the torus wall will be equal to gravity
Why water does not fall If a bucket containing water is rotated in a vertical circle. Explain.?
Newton's thrid law states that for an action, there is an equal and opposite reaction, in an inertial reference frame. The bucket at the highest point experiences two types of acceleration. One is gravity pointing downwards. Another is centripetal acceleration, which deters it from moving either to the right or to the left. The centripetal acceleration also points downwards. The bucket, at zero vertical velocity, applies a force on the water, equal to the centripetal force yet inthe reverse direction. Therefore, the water in the bucket feel zero instantaneous force at zero instantaneous velocity. According to newton's first law, it shouldn't fall at that point.
When energy is absorbed during a chemical reaction the reaction is classified as what reaction?
endothermic reaction
What is the reaction force to Centripetal Force within a Centrifuge If centrifugal forces are fictitious?
Always centrifugal is the reaction force for centripetal
What is centrifugal force a measure of?
Centrifugal force is a measure of the opposite reaction of a centripetal force.
Do centripetal and centrifugal force constitute action reaction pair explain?
No, centripetal and centrifugal forces are not action-reaction pairs. Centripetal force acts towards the center of a circular path, keeping an object in uniform circular motion, while centrifugal force is a fictitious force that appears to act outward on the object. They arise due to the inertia of the object in motion and the frame of reference chosen.
Are centrifugal force and Reactive Centrifugal force the same thing?
Reactive centrifugal force is not the same thing as centrifugal force. Reactive centrifugal force is the reaction force. It is the reaction force reacting to a centripetal force.
Why centripetal and centrifugal forces are not action reaction pair?
a) Centrifugal force is not even a real force, it is a fictitious force. b) Action and reaction forces act on DIFFERENT objects. If A acts on B, then B acts on A.
What are Centripetal and Centrifugal forces work?
Center of gravity toward the center of the body absorbs. Centrifugal force away from the center of the object. Centripetal force is real. Centrifugal force is made up and doesn't exist.
Why a centrifugal force is not a reaction of centripetal force?
Centrifugal force is a fictitious force that appears in a rotating frame of reference, while centripetal force is a real force that acts towards the center of the circular motion. Centrifugal force arises due to inertia in a rotating frame, while centripetal force is necessary to keep an object moving in a circle. They are not equal and opposite reactions; rather, centripetal force is necessary to balance the inertia in the rotating frame.
The outward force of rotational motion is?
There is no outward force of rotational motion. It is a force that is applied inward, towards the center of the circle that the object is traveling around. This is called centripetal force.The perceived outward force, also known as centrifugal force, is actually a reaction force to the inward centripetal force, and is a consequence of Newton's third law of motion - "To every force, there is an equal and opposite reaction force."
When you are in roller coaster you never fall down even when you are upside down Why?
It is true that the centripetal force is directed towards the center of the circle but in addition to the centripetal force there is another force called centrifugal force which is reaction force. The centrifugal force is directed opposite to the centripetal force, i.e.,outward. It is due to this force that we never fall down even when we are upside down. Technically, you are under the same downward acceleration at all times. When you are thrust up by the ride, it takes some time for the downward acceleration to stop the upward movement. That "some time" is your free upside-down ride.
What is the direction in which centripetal force acts?
Is the direction of centripetal force of an object moving in a circle pointing to the center of the circular path? kk
The series of steps that constitute the reaction is called the?
Ans~ C for plato~ reaction mechanism
What is the earth's centripetal force?
The term "centrifical" is a word without a definition; some would say a non-existent word. It might have the same definition as "ncauvjnscc" or "oioushc" or any other made up babble you chose to imagine. However, the term has been used enough in common parlance as to associate its meaning with either "centripetal" or "centrifugal". The centripetal force is the force applied to a linearly travelling (straight line) object to make it travel in a curve or to make it rotate about some center point. The force is applied to the object make it move toward that center point. The centrifugal force is referred to as the opposite force to the centripetal force following Newtons Law of equal and opposite reaction. However, this force is a consequence of the inertia of the object (resistance to the circular motion) and acts on the source of the centripetal force, NOT the object experiencing curved motion. The centrifugal force is equal, but opposite, the centripetal force. For instance, a weight on a string attached to an object swung about your head experiences a force applied inward (centripetal force) due to your hand (the center point) applying the force. The string also experiences this force all along its length. Your hand experiences a force applied outward (centrifugal force) due to the weights inertia (resistance to change direction at all points in time as it moves in a circle). The string also experiences this force all along the string. The opposing forces on the string keeps the string in tension. Additionally, your feet share a friction force against the surface you stand on equal to the centripetal force to keep you stationary. So the question remains: which force did you really mean, centripetal or centrifugal?
