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IMA stands for "Ideal Mechanical Advantage" in physics. It is a measure of the mechanical advantage of a simple machine, such as a lever or pulley system, in the absence of friction. It is calculated by dividing the distance over which the input force is applied by the distance over which the output force is exerted. A higher IMA indicates a greater mechanical advantage of the simple machine.
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JordanIMA stands for Ideal Mechanical Advantage in physics. It represents the ratio of the force output of a machine to the force input, assuming no friction and perfect efficiency. It is a theoretical value that helps in understanding the mechanical efficiency of simple machines.
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Which describes how the IMA of this ramp compares with the IMA of the ramp that has a height of 1m?
The ideal mechanical advantage (IMA) of a ramp with a greater height will be higher compared to a ramp with a shorter height. This is because the IMA is calculated by dividing the length of the ramp by the height, meaning a higher height will result in a larger IMA.
