Essentially the reason is that you deal with things of a similar nature. As an example if I have a barrel of bananas and the total count is 25, some of them ripe and some of them no ripe, how would you answer the following questions? 1) How many bananas are there in the barrel? You would say 252) How many raw bananas are there in the barrel? You will count and get the answer3) How many ripe bananas are there in the barrel? you will count and get the answer4) Give me 25 ripe bananas from the barrel. You cannot. Either you have to wait a while before the raw bananas ripen or you have to remove all the unripe bananas and replace them with ripe bananas. The point is there are numerous instances where you have to (using an old cliche) compare "apples to apples". Thus you cannot deal with yards, and feet in linear measure. You will have to convert them to either yards or feet. You cannot deal with meter and feet or kilograms and pounds or Fahrenheit and Celsius unless you convert each pair to a common unit. Otherwise you answers will be wrong.
It is the connecting point between all other types of measurements. You can not go from molecules to grams without first going through moles. Or gas at STP to molecules without finding the moles.
you use the mole for 6.02x10 to the 23rd power for the same reason you use a dozen for the number 12.
A consistent set of units must be used for many formulae. For example, in the formula distance = speed x time, if the speed is in m/s and the time in seconds, the distance will be in meters. If one of the measurements is in some other units (for example km/hour), it may be necessary to convert before using the formula (in order to have consistent units), or to convert the final result (to have it in a desired unit).
Because the mole was adopted in SI (International System of Units) as the unit of amount of substance in chemistry.
I think you mean conversion measurements...
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.
Ration does not have units. You have to convert one of them to the same units and then work it out. For example: what is the ratio of 4m to 200cm ? This is the same as: 4m to 2m - so the answer is 2 to 1. (400cm to 200cm gives the same answer.)
these both are different units of measurements. so,no conversion can take place.
The world system of measurements units is based on the metric system (SI).
By unit of length and mass and conversion ,we can say that units of measurements in length are meters ,cm ,dm ,dam ,hm.
It is the conversion factor between the measurement units.
SI units are important because it is a universal means of communicating different types of measurements.
Use the related link below to do this sort of conversion.
Standard units are used for measurements. it is taken as a fundamental unit.
The conversion of Anson-units is that in Chemistry you have to multiply by the conversion units, to get the Anson-units.
There are 7 fundamental units in S.I system .Thus ,for unit of length and mass and conversion ,the relations are given .By the conversion table :We can say that miles,light years and astronomical units are bigger than kilometers .
I think you mean conversion measurements...
# Units allows use to compare quatities that are not in the same space, place or time # units also indicates the physics quantities measured or been measure as each quantities has particlar units
SI units are defined for physical measurements, like measurements of mass, length, etc. - there are no specific SI units for plain numbers.SI units are defined for physical measurements, like measurements of mass, length, etc. - there are no specific SI units for plain numbers.SI units are defined for physical measurements, like measurements of mass, length, etc. - there are no specific SI units for plain numbers.SI units are defined for physical measurements, like measurements of mass, length, etc. - there are no specific SI units for plain numbers.
No, 1.4 doesn't equal 1.0 based strictly on numbers. If you had different units of measurements there might be a conversion where it might be equal.
Using a website which deals with conversion of measurements units Click on the related link, that site is amazing, very efficient, and provides precise values for metric system conversion.