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Physics College Lecture Series Centrifugal “Force”: The Fake F orce. Objectives. Explain why the net force acting on an object experiencing uniform circular motion is directed inward. Define and describe centripetal acceleration. Define and describe centripetal force.
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Physics College Lecture SeriesCentrifugal “Force”: The Fake Force
Objectives • Explain why the net force acting on an object experiencing uniform circular motion is directed inward. • Define and describe centripetal acceleration. • Define and describe centripetal force. • Define centrifugal force as an imaginary force resulting from inertia.
Common misconceptions “People stick to the outer wall of an amusement park ride because of centrifugal force.” “Objects slide across the dashboard to the outside of a curve in the road because of centrifugal force.”
3 Examples from prior knowledge to refute idea of centrifugal force • Definition of force • Newton’s first law • Acceleration of an object undergoing uniform circular motion
Definition of force • A force is a push or pull upon an object resulting from one object’s interaction with another object. • So…where’s the push or pull? Where’s the interaction? Is it towards the center or towards the edge?
Newton’s First Law • An object will resist a change in its state (either at rest or in motion) unless acted upon by an unbalanced force • What is the current state of an object experiencing uniform circular motion? • What will it “want” to continue doing? • Inertia in action
Acceleration of an object undergoing uniform circular motion • Acceleration is directed inward, how can the net force be outward?
So, if centrifugal “force” doesn’t exist, how do we explain the misconceptions? • People “stick” to the outer wall of an amusement park ride. • Objects slide across the dashboard towards the outside of a curve in the road.
The truth! • Centripetal force: Center seeking! • Centripetal force is INWARD • Centripetal acceleration is INWARD • Tangential velocity is “straight” ahead!
Intermission Answer the questions: • What is ‘centrifugal force’? • How do we know that centrifugal force is not actually a force? • For an object moving in a circular path, in which direction is it actually trying to go? Write in the cue column: • At least one question to ask the professor
Real Forces: Perceived Forces: Friction; up Centripetal; inwards Gravity (weight); down Centrifugal; outwards Gravity (weight); down Perceived weight; down and out Rotating Drum Ride • Vertical drum rotates, you’re pressed against wall • Friction force against wall matches gravity • Seem to stick to wall, feel very heavy The forces real and perceived
Objects on dashboard • Tape Deck Demo
Connections to yesterday’s lab • You saw that Force depended on mass, velocity and radius… • You had to PULL the mass to keep it in a circle—you needed a force towards the CENTER!
Velocity and Acceleration in Uniform Circular Motion • Centripetal acceleration depends on velocity and radius
Centripetal Force (“center seeking”) • Centripetal force depends on velocity, radius and mass • Since acceleration is directed inward, force is directed inward as well!
Conclusions • Centrifugal “force” is non-existent: Newton’s Laws explain motion in a circle and in a straight line • Inertia explains why object want to remain on a straight path • Actual net force is inward and is called centripetal force!