Drag force Terminal velocity.  We’re always “neglecting air resistance” in physics ◦ Can be difficult to deal with  However air resistance is present.

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Presentation transcript:

Drag force Terminal velocity

 We’re always “neglecting air resistance” in physics ◦ Can be difficult to deal with  However air resistance is present in real life. ◦ Air resistance is the friction force that opposes velocity of an object when it goes through air. ◦ Air resistance causes energy drain on cars, bicyclists, planes etc.

 A falling object will experience air resistance when it falls vertically.  Air resistance will increase as it falls faster  Air resistance acts as an upward force on the object.  This is called the drag force.

 Force of gravity is constant u for a falling object air resistance increases as it speed up u Equal forces, no acceleration u constant velocity terminal velocity u Eventually force of gravity will balance with air resistance

 Terminal velocity is the highest speed reached by a falling object.

Consider a skydiver: 1)At the start of his jump the air resistance is _____ so he _______ downwards. 2) As his speed increases his air resistance will _______ 3) Eventually the air resistance will be big enough to _______ the skydiver’s weight. At this point the forces are balanced so his speed becomes ________ - this is called TERMINAL VELOCITY zero accelerates increase equal constant

 Objects with more surface area will experience more drag force.  Using parachute increase the surface area of the sky diver.

Consider a skydiver: 4) When he opens his parachute the air resistance suddenly ________, causing him to start _____ ____. 5) Because he is slowing down his air resistance will _______ again until it balances his _________. The skydiver has now reached a new, lower ________ _______. increases slowing down decrease weight terminal velocity

1. Parachutes on the moon? – Comment on their usefulness.  Parachutes are useless on the moon, as there is no air, so no air resistance. Everything keeps on accelerating to the end of its fall. 2. Film of parachute jumpers often makes it look as though they shoot upwards when their parachute opens. They don’t – so why does it look that way?  The camera operator remains in free fall while he films the parachutist opening his parachute.  At this point, the parachutist suddenly slows down relative to the camera operator, who shoots past him.  This makes the parachutist appear to move upwards.