| Your Results | Global Average | |
|---|---|---|
| Questions | 5 | 5 |
| Correct | 0 | 3.35 |
| Score | 0% | 67% |
A box is resting on a smooth floor. Static friction is present:
only if normal force is present |
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at all times |
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when an attempt is made to move the box |
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if the coefficient of friction is greater than one |
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).
The steering wheel of a car is an example of which type of simple machine?
fixed pulley |
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wheel and axle |
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block and tackle |
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first-class lever |
A wheel and axle uses two different diameter wheels mounted to a connecting axle. Force is applied to the larger wheel and large movements of this wheel result in small movements in the smaller wheel. Because a larger movement distance is being translated to a smaller distance, force is increased with a mechanical advantage equal to the ratio of the diameters of the wheels. An example of a wheel and axle is the steering wheel of a car.
Which of these is the formula for kinetic energy?
\(KE = {1 \over 2}mh^2\) |
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\(KE = {1 \over 2}mv^2\) |
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\(KE = mgh\) |
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\(KE = {m \over v^2 }\) |
Kinetic energy is the energy of movement and is a function of the mass of an object and its speed: \(KE = {1 \over 2}mv^2\) where m is mass in kilograms, v is speed in meters per second, and KE is in joules. The most impactful quantity to kinetic energy is velocity as an increase in mass increases KE linearly while an increase in speed increases KE exponentially.
| 0 lbs. | |
| 28.13 lbs. | |
| 112.5 lbs. | |
| 450 lbs. |
To balance this lever the torques on each side of the fulcrum must be equal. Torque is weight x distance from the fulcrum so the equation for equilibrium is:
Rada = Rbdb
where a represents the left side of the fulcrum and b the right, R is resistance (weight) and d is the distance from the fulcrum.Solving for Ra, our missing value, and plugging in our variables yields:
Ra = \( \frac{R_bd_b}{d_a} \) = \( \frac{50 lbs. \times 9 ft.}{4 ft.} \) = \( \frac{450 ft⋅lb}{4 ft.} \) = 112.5 lbs.
Which of the following is not a type of simple machine?
gear |
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pulley |
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lever |
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screw |
The six types of simple machines are the lever, wheel and axle, pulley, inclined plane, wedge, and screw.