| Your Results | Global Average | |
|---|---|---|
| Questions | 5 | 5 |
| Correct | 0 | 3.04 |
| Score | 0% | 61% |
A fixed pulley is useful for which of the following?
multiplying the input distance |
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changing the direction of the output force |
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multiplying the input force |
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changing the direction of the input force |
A fixed pulley is used to change the direction of a force and does not multiply the force applied. As such, it has a mechanical advantage of one. The benefit of a fixed pulley is that it can allow the force to be applied at a more convenient angle, for example, pulling downward or horizontally to lift an object instead of upward.
Which of the following is not a type of bridge?
truss |
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block |
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arch |
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cable |
The six basic bridge forms are beam, truss, arch, cantilever, cable, and suspension.
For any given surface, the coefficient of static friction is ___________ the coefficient of kinetic friction.
higher than |
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lower than |
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equal to |
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opposite |
For any given surface, the coefficient of static friction is higher than the coefficient of kinetic friction. More force is required to initally get an object moving than is required to keep it moving. Additionally, static friction only arises in response to an attempt to move an object (overcome the normal force between it and the surface).
A fixed pulley has a mechanical advantage of:
0 |
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-1 |
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2 |
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1 |
A fixed pulley is used to change the direction of a force and does not multiply the force applied. As such, it has a mechanical advantage of one. The benefit of a fixed pulley is that it can allow the force to be applied at a more convenient angle, for example, pulling downward or horizontally to lift an object instead of upward.
The measure of how much of the power put into a machine is turned into movement or force is called:
force multiplication |
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power |
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mechanical advantage |
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efficiency |
The efficiency of a machine describes how much of the power put into the machine is turned into movement or force. A 100% efficient machine would turn all of the input power into output movement or force. However, no machine is 100% efficient due to friction, heat, wear and other imperfections that consume input power without delivering any output.