Work, Power and Machines - Weeblyspiffyscience.weebly.com/uploads/6/0/0/5/60058591/chapter_5.pdf ·...
Transcript of Work, Power and Machines - Weeblyspiffyscience.weebly.com/uploads/6/0/0/5/60058591/chapter_5.pdf ·...
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CHAPTER 5
Work, Power and Machines
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Section one: Work, Power, and Machines
• Objective one: Calculate Work
• Objective Two: Differentiate Work and Power
• Objective Three: Discover that machines make work
easier
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Work
• What is work? • To a scientist work is done when changing motion
• Work is force applied multiplied by the distance the force acts
• Only if the force and the direction are the same
• Work is zero when an object is not moving
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Work
• When an Olympic weight lifter presses a barbell over his
head
• When he has to hold it there until the judges say he can
put it down
• Big force but no distance
he is doing work
he is not doing work
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Is he doing any work on the barbell?
• No
• Work is zero when an object is stationary
Video
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Calculating Work
• Work= force x distance
• W = F x d
Units of work
• Force= Newton
• Distance= meters
• Work= Newton x meter (N·m)
• N·m= 1Joules (J)
• Or kg·m2/s2
So if an apple weighs about 1 N and
you lift it 1 meter.
That is 1 N·m of work or 1 J of work
W
F d
SI unit of work is Joules
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Practice Problem (Work)
• 1. A crane uses an average force of 5,200 N to lift a girder
25 m. How much work does the crane do on the girder?
• 2. A bicycle’s brakes apply 125 N of frictional force to the
wheels as the bike moves 14.0 m. How much work do
the brakes do?
W = ?
F=5,200 N
d= 25 m
W= F x d W= 5,200 N x 25 m W= 130000 J Or W= 1.3 x 105 J
W = ?
F= 125 N
d= 14.0 m
W = F x d W = 125 N x 14.0 m W = 1,750 J or W = 1.75 x 103 J
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Practice Problem (Work)
• 3. A mechanic uses a hydraulic life to raise a 1,200 kg car
0.50 m off the ground. How much work does the lift do on
the car?
• 4. A car has run out of gas. Fortunately, there is a gas
station nearby. You must exert a force of 715 N on the car
in order to move it. By the time you reach the station, you
have done 2.72 x 104 J of work. How far have you
pushed the car?
F= m x a
F= 1,200 kg x 9.8 m/s2
F= 11760 N
F= ?
d = 0.50 m
W = ?
W= F x d
W= 11760 N x 0.50 m
W= 5880 J
W= 5900 J F = 11760 N
W = 2.72 x 104 J
F=715 N
d= ?
d= W/F
d= 2.72 x 104 J
715 N
d= 38.04 m d= 38.0 m
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Power
• What is Power?
• It is the rate at which work is done.
• Quantity that measures work in relation to time.
• Running up stairs is harder than walking up stairs
• Why? They both do the same amount of work.
• Running does the same work more quickly
• Your power output would be greater than if you walked up the
stairs.
Video
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Calculating Power
• Power is work divided by time
• Power = w/t
• SI units for power is watts (W)
• 1 watt is the power to do 1 J of work in 1 s
• Watt= Joule
second
A student lifts a 12 N textbook 1.5 m of the floor in 1.5 s.
How much work did he do?
How much power did he use?
P
W
t
W = f x d W = 12 N x 1.5 m W = 18 J
P = W/t P = 18 J/ 1.5s P = 12 W
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Practice Problem (Power)
1. A 43 N force is exerted through 2.0 m distance for 3.0 s.
How much work was done?
How much power was used?
W= ?
F= 43 N
d= 2.0 m
W = f x d W =43 N x 2.0 m W = 86 J
P= ?
W= 86 J
t= 3.0 s
P = W/t
P = 86 J / 3.0 s
P = 28.66 W
P = 29 W
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Practice Problem (Power)
2. While rowing across the lake during a race, John does 3,960
J of work on the oars in 60.0 s. What is his power output in
watts?
3. Anna walks up the stairs on her way to class. She weighs
565 N, and the stairs go up 3.25 m vertically.
a. If Anna climbs the stairs in 12.6 s, what is her
power output?
b. What is her power output if she climbs the stairs I
n 10.5 s?
P= ?
W= 3,960 J
t= 60.0 s
P= W/t
P= 3960 J / 60.0 s
P= 66 W
P= 66.0 W
P= ?
W= 1836.25 J
t= 10.5 s
P=W/t
P=1836.25 J /12.6 s W= ?
F= 565 N
d= 3.25
Figure out work first
W= F x d
W= 1836.25 J
P=145.73 W
P= 146 W
P= ?
W= 1836.25 J
t= 12.6 s
P=W/t
P=1836.25 J / 10.5 s
P=174.88 W
P=175 W
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Machines
• Machines make work easier.
• They multiply force or change its direction
• They multiply force by using a small force to go a long
distance
• Things like ramps, levers, etc.
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1 m
75 N
W = 75 N x 1 m = 75 J
W = 25 N x 3 m = 75 J
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Mechanical Advantage
• How many times a machine multiplies the input force
• Mechanical advantage greater than 1 multiples force
• Less than 1 it multiplies distance, less force
Calculating Mechanical Advantage
• Mechanical Advantage = output force input force
• Mechanical Advantage = input distance output distance
• MA has no SI unit
• Force is still Newtons
MA
F out
F
in
D in
D out
MA
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Practice Problem (Mechanical Advantage)
1. Find the mechanical advantage of a ramp that is 6.0 m
long and 1.5 m tall.
• So, what was increased?
2. Alex pulls on the handle of a claw hammer with a force of
15 N. If the hammer has a mechanical advantage of 5.2,
how much force is exerted on the nail in the claw?
MA = input distance/output distance
MA = 6.0 m/1.5 m
MA = 4.0
Force, because it was great than 1
F out= MA x F in
F out= 5.2 x 15 N
F out= ?
MA =5.2
F in = 15 N
F out= 78 N
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13.2 Simple Machines
• Identify the six types of Simple Machines.
• What are the parts of a lever?
• How does using a simple machine change the force
required to do work?
• Identify compound machines.
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What is a Simple Machine?
• A simple machine has
few or no moving
parts.
• Simple machines
make work easier
• Six types
• Two families • Lever family
• Inclined plane family
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The Lever Family
1. First, second, and
third class levers
3. Wheel and axles
2. Pulleys
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Levers-First Class
• In a first class lever the
fulcrum is in the middle
and the load and effort
is on either side
• Think of a see-saw
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Levers-Second Class
• In a second class lever
the fulcrum is at the
end, with the load in
the middle
• Think of a
wheelbarrow
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Levers-Third Class
• In a third class lever
the fulcrum is again at
the end, but the effort
is in the middle
• Think of a pair of
tweezers
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Pulleys
• Pulley are wheels and axles with a groove around the outside
• A pulley needs a rope, chain or belt around the groove to make it do work
• Single fixed pulley MA = 1
• Single moveable pulley MA = 2
• Block and Tackle MA = # of lines that support the weight of the Resistance.
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Wheels and Axles
• The wheel and axle are a simple machine
• The axle is a rod that goes through the wheel which allows the wheel to turn
• Gears are a form of wheels and axles
• MA = Radius of Wheel/Radius of axle
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How does a wheel and axle differ from a
pulley?
• The wheel turns that axle directly in a fixed-wheel
machine. When the wheel turns, the axle also turns.
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The Inclined Plane Family
1. Inclined plane (Ramps)
2. Wedges
3. Screws
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Inclined Planes
• An inclined plane is a
flat surface that is
higher on one end
• Inclined planes make
the work of moving
things easier
• Reduces input
force
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Wedges
• Two inclined planes joined back to back.
• Wedges are used to split things.
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Screws
• A screw is an inclined plane wrapped around a shaft or cylinder.
• The inclined plane allows the screw to move itself when rotated.
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Compound Machines
• Compound machine: a machine that combines more than one simple machine.
• Simple Machines can be put together in different ways to make complex machinery
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