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Mechanical Advantage and Efficiency

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Presentation on theme: "Mechanical Advantage and Efficiency"— Presentation transcript:

1 Mechanical Advantage and Efficiency

2 Mechanical Advantage Machines can take a small input force and create a large output force. The mechanical advantage of a machine is the number of times that the machine increases an input force. There are two ways to calculate the mechanical advantage of a machine: actual and ideal.

3 Actual Mechanical Advantage
The actual mechanical advantage (AMA) equals the ratio of the output force to the input force. AMA = Output Force / Input Force

4 Mechanical Advantage Problems
Q: Alex pulls on the handle of a claw hammer with a force of 15 N. If the hammer has a actual mechanical advantage of 5.2, how much force is exerted on a nail in the claw? Q: If you exert 100 N on a jack to lift a 10,000 N car, what would be the jack’s actual mechanical advantage (AMA) A: output force = (5.2)(15N) = 78 N A: AMA= 10,000 N / 100 N = 100

5 Ideal Mechanical Advantage
The ideal mechanical advantage (IMA) is the maximum mechanical advantage a machine can have. To have the maximum mechanical advantage, there must be no friction. IMA = Input distance / Output distance

6 Mechanical Advantage Problems
Q: Calculate the ideal mechanical advantage (IMA) of a ramp that is 6.0 m long and 1.5 m high? Q: The IMA of a simple machine is If the output distance of the machine is 1.0 m, what is the input distance? A: IMA = 6.0m / 1.5m = 4.0 A: Input distance = (2.5)(1.0m) = 2.5 m

7 AMA vs IMA AMA is what actually happens
IMA is what could happen without friction Since there is always some friction, AMA is less than IMA.

8 Efficiency We always want to see how efficient a machine is.
Most cars get at least 20 miles per gallon. This is an example of efficiency. We say that a car that gets 30 miles per gallon is more efficient. With efficiency, we compare how much work we get from the work we put into a machine.

9 Efficiency Efficiency = (Work output / Work input) X 100%
Because there is always some friction, the efficiency of any machine is always less than 100 percent.

10 Efficiency Problems Q: Alice and Jim calculate that they must do 1800 J of work to push a piano up a ramp. However, because they must also overcome friction, they must actually do 2400 J of work. What is the efficiency of the ramp? Q: If the machine has an efficiency of 40%, and you do 1000 J of work on the machine, what will be the work output of the machine? A: 1800 J/ 2400 J x 100 = 75% A: Work Output = (Efficiency x work input) / 100% Work Output = (40% x 1000 J) / 100% = 400J

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