Force is force. Whether it is measured on the moon or elsewhere: it is mass*acceleration (in the direction of the force).
It is simply the first measurement divided by the second, expressed with their measurement units as a ratio.
Define these Levels of Measurement.NominalOrdinalInterval/Ratio
You would not. A fraction is a pure number - with no measurement units associated with it. A weight is a measure of force.
ratio
The mechanical advantage of a level is the ratio of the output force to the input force.
It is a ratio scale of measurement.
The ratio for a diagram measurement to the actual measurement is known as the key.
The moon is a natural satellite. A meter is a measurement of length. No, the moon is not a measurement of length.
Ratio. It has a true zero.
To determine the relative uncertainty in a measurement, you can calculate the ratio of the uncertainty in the measurement to the actual measurement itself. This ratio gives you a percentage that represents the level of uncertainty in the measurement.
The answer depends on measurement of WHAT! Their radii, volume, mass, force of gravity acting between them, period of orbit are some possible measurements.
Examples of ratio level of measurement are age, weight, and amount of money.
The name for the ratio of a diagram measurement to actual measurements is the scale.
The earth/moon radius ratio is about 3.67/1 and the mass ratio is about 80/1.
It is simply the first measurement divided by the second, expressed with their measurement units as a ratio.
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Define these Levels of Measurement.NominalOrdinalInterval/Ratio