Question

How do you convert moles to particles?

Answer 1

Hint:With the help of Avogadro's no. we can determine mole to particles conversion easily using unit conversion techniques, we can use the mole labeled to convert back and forth between the number of particles and moles. Most Important values here to determine particles from mole is Avogadro's number, \[6.022\times 10{}^\text{2}{}^\text{3}\]

Complete answer:
For mole to particle conversion we can follow some simple steps:
To determine the amount of particles (or molecules) present given the moles of an element, we can multiply the amount of moles by Avogadro's number, \[6.022\times 10{}^\text{2}{}^\text{3}\]
\[1\text{ }mole\text{ }of\text{ }element\text{ }\times \left( \dfrac{6.022\times 10{}^\text{2}{}^\text{3}}{1mol} \right)\text{ }=\text{ }6.022\times 10{}^\text{2}{}^\text{3}\]

In simple words \[1\text{ }mole\text{ }=\text{ }6.022\times 10{}^\text{2}{}^\text{3}\]

Additional Information:
Why is Avogadro's number referred to as a mole?
In calculations, sometimes we have to have a conversion which is necessary in order to calculate and determine the desired answer. A conversion can be performed by knowing the relationship between two variables. Avogadro's number is used for conversion between molecules or particles to moles. It shows the relationship between the number of particles such as particles and molecules to the mole of a compound or substance.
The relationship of Avogadro's number to moles is: \[6.022\times 10{}^\text{2}{}^\text{3}\]
It is referred to as a mole since it shows the number of particles such as particles and molecules that are present per mole of a given compound or substance. It provides a distinct numerical value of the particles associated with one mole of the compound or substance.

Note:We have to consider Avogadro's number is a measured quantity with three significant figures; the result of the calculation is rounded to three significant figures. The first conversion factor converts from moles of particles to the number of particles. The second conversion factor reflects the number of particles contained within each molecule.