Suppose the mean of a sample is 1.72 metres, and the standard deviation of the sample is 3.44 metres. (Notice that the sample mean and the standard deviation will always have the same units.) Then the coefficient of variation will be 1.72 metres / 3.44 metres = 0.5. The units in the mean and standard deviation 'cancel out'-always.
Nine and a fifth - of any units, standard or not.Nine and a fifth - of any units, standard or not.Nine and a fifth - of any units, standard or not.Nine and a fifth - of any units, standard or not.
Units of measure do follow the standard deviation.
A meter is the standard unit of length. If you are accustomed to the imperial units, it is about 1.1 yards.A meter is the standard unit of length. If you are accustomed to the imperial units, it is about 1.1 yards.A meter is the standard unit of length. If you are accustomed to the imperial units, it is about 1.1 yards.A meter is the standard unit of length. If you are accustomed to the imperial units, it is about 1.1 yards.
Every one will confused because different unit mean different value when you try to convert it.
The same units as the mean itself. If the units of the mean, are, for example miles; then the error units are miles.
Suppose the mean of a sample is 1.72 metres, and the standard deviation of the sample is 3.44 metres. (Notice that the sample mean and the standard deviation will always have the same units.) Then the coefficient of variation will be 1.72 metres / 3.44 metres = 0.5. The units in the mean and standard deviation 'cancel out'-always.
Nine and a fifth - of any units, standard or not.Nine and a fifth - of any units, standard or not.Nine and a fifth - of any units, standard or not.Nine and a fifth - of any units, standard or not.
A non standard measurement is one in which the units are not normally used. This would be like saying something is four palms long, a palm equaling three inches.
It is the International Standard of units.
Units of measure do follow the standard deviation.
The answer will depend on the population mean of what variable? Height?, length or is it simply weight. If it is weight, the estimated (not estimd) population mean is 3.01 units: the same as the sample mean. The standard deviation (not diviation) is irrelevant.The answer will depend on the population mean of what variable? Height?, length or is it simply weight. If it is weight, the estimated (not estimd) population mean is 3.01 units: the same as the sample mean. The standard deviation (not diviation) is irrelevant.The answer will depend on the population mean of what variable? Height?, length or is it simply weight. If it is weight, the estimated (not estimd) population mean is 3.01 units: the same as the sample mean. The standard deviation (not diviation) is irrelevant.The answer will depend on the population mean of what variable? Height?, length or is it simply weight. If it is weight, the estimated (not estimd) population mean is 3.01 units: the same as the sample mean. The standard deviation (not diviation) is irrelevant.
There are several standard metric units, for measuring different things.There are several standard metric units, for measuring different things.There are several standard metric units, for measuring different things.There are several standard metric units, for measuring different things.
Standard units are used for measurmen as there is a system called the SI units and that is considered as the international system of units that is why we use standard units for measurment .
Standard units are more commonly used than non standard units. Also, many of the conversion factors, such as the Universal Gravitational Constant or the Speed of Light, are in standard units and, if your measurements were not in appropriate units, you would need to convert.
Standard units are used for measurements. it is taken as a fundamental unit.
Yes they are.* * * * *No, they are not. A foot, for example, is a standard unit of the Imperial system.