apparent weight
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Apparent Weight. Drag Force and Terminal Velocity. Apparent Weight. Our perception of weightlessness is really the absence or reduction of normal (contact) forces acting upon our body. . Conversely, we can feel heavier if the normal (contact) forces acting on us are larger than normal . . - PowerPoint PPT PresentationTRANSCRIPT
Apparent WeightApparent Weight
Drag Force and Terminal VelocityDrag Force and Terminal Velocity
Apparent WeightOur perception of weightlessness is really the absence or reduction of normal (contact) forces acting upon our body.
Conversely, we can feel heavier if the normal (contact) forces acting on us are larger than normal.
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Now suppose you stand on the bathroom scale and ride an elevator up and down. As you are accelerating upwards and downwards, the scale reading is different than when you are at rest and traveling at constant speed.
Apparent Weight in an Elevator
Which situation does Anna feel the heaviest? Which situation does she feel the lightest?
B
D
Apparent Weight in an Elevator - Concepts
A body at rest wants to stay at rest so when the elevator starts to move down there is less force pushing on your feet – you feel lighter.
C
A There is no change in motion so the upwards push on your feet must be equal and opposite to your weight – you feel normal weight
B Your body wants to remain at rest but the elevator starts to move upwards. This imparts more upwards force on your feet than your weight – you feel heavier
Free Fall – You feel weightlessD
Apparent Weight in an Elevator
Coming Down
Elevator at rest
Zero Acceleration
FNET = 0
FN = Fg
Elevator starts accelerating downwards
FNET = m a (down)
FN < Fg
Elevator is slowing down to a stop while moving down
FNET = m a (up)
FN > Fg
Elevator at constant speed downwards
Zero Acceleration
FNET = 0
FN = Fg
The normal Force (orange) is what she feels
a aFNET
FNET
Apparent Weight in an Elevator
Coming Down - Theory
FNET = 0
FN = Fg = mg
FNET = m a (down) FNET = m a (up)FNET = 0
FN = Fg = mg
a aFNET
FNET
FNET = Fg - FN
mg - FN = ma
FN = mg - ma
FN = m(g - a)
FNET = FN - Fg
FN -mg = ma
FN = ma + mg
FN = m(g + a)
Normal Weight
Lower Weight
Normal Weight
Heavier Weight
Apparent Weight in an Elevator
Going Up
Elevator at rest
Zero Acceleration
FNET = 0
FN = Fg
Elevator starts accelerating upwards
FNET = m a (up)
FN > Fg
Elevator at constant speed upwards
Zero Acceleration
FNET = 0
FN = Fg
Elevator is slowing down to a stop while moving up
FNET = m a (down)
FN < Fg
aa FNETFNET
Apparent Weight in an Elevator
Going Up
aa FNETFNET
FNET = 0
FN = Fg = mgFNET = 0
FN = Fg = mg
FNET = m a (up)
FNET = FN - Fg
FN -mg = ma
FN = ma + mg
FN = m(g + a)
FNET = m a (down)
FNET = Fg - FN
mg - FN = ma
FN = mg - ma
FN = m(g - a)
Normal Weight
Heavier Weight Lower
Weight
Normal Weight
Going up and DownGoing up and Down In General:In General:
If your apparent weight is less If your apparent weight is less • F = m (g – a)F = m (g – a)
If your apparent weight is moreIf your apparent weight is more• F = m (g +a)F = m (g +a)
When the contact force is less your When the contact force is less your apparent weight is less, when the contact apparent weight is less, when the contact force is more your apparent weight is force is more your apparent weight is more.more.
Terminal VelocityTerminal VelocityConsider a skydiver:
1) At the start of his jump the air resistance is small so he accelerates downwards.
2) As his speed increases his air resistance will increase.
3) Eventually the air resistance will be big enough to equal the skydiver’s weight. At this point the forces are balanced so his speed becomes constant - this is called TERMINAL VELOCITY
Terminal VelocityTerminal VelocityConsider a skydiver:
4) When he opens his parachute the air resistance suddenly increases, causing him to start accelerating upward.
5) Because he is slowing down his air resistance will decrease again until it balances his weight. The skydiver has now reached a new, lower terminal velocity.For a typical person, terminal speed is
60 m/s or approximately 135 miles per hour. A person has to fall over 400 yards before you really need to start taking this into account.
Velocity-time graph for terminal Velocity-time graph for terminal velocity…velocity…
Velocity
Time
Speed increases…
Terminal velocity reached…
Parachute opens – diver slows down
New, lower terminal velocity reached
Diver hits the ground
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