What is a Mole in Chemistry?
A mole is the SI unit for the amount of substance, defined as the number of particles (atoms, molecules, or ions) equal to Avogadro's number (6.022 × 10²³). The mole concept is the bridge between the microscopic world (atoms, molecules) and the macroscopic world (grams, liters) that we measure in the laboratory. Moles are essential for stoichiometric calculations, solution concentration, and nearly all quantitative chemical calculations.
Mole Calculation Formula
n = m/Mr or n = V/22.4 (STP) or n = M × VFormula: n = number of particles / 6.022 × 10²³Variables:
- nNumber of moles (mol)Number of moles (mol)(e.g.: n = 2 mol)
- mMass of substance (grams)Mass of substance (grams)(e.g.: m = 36 g)
- MrMolar/relative mass (g/mol)Molar/relative mass (g/mol)(e.g.: Mr H₂O = 18 g/mol)
- VVolume of gas at STP (liters)Volume of gas at STP (liters)(e.g.: V = 22.4 L)
- MMolarity (mol/L)Molarity (mol/L)(e.g.: M = 1 M)
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How to Use the KalkuLab Mole Calculator
- 1
Select Calculation Method
Choose from mass, gas volume, number of particles, or solution.
- 2
Enter Data
Enter known values (mass, molar mass, volume, etc.).
- 3
Calculate
The system calculates the number of moles automatically.
- 4
View Results
The mole count is displayed along with additional information.
Examples
Moles from Mass
How many moles are in 36 grams of water (H₂O)?
- 1.Mr H₂O = 2(1) + 16 = 18 g/mol
- 2.n = m/Mr = 36/18 = 2 mol
36 grams of water contains 2 moles, or 1.2 × 10²⁴ water molecules.
Gas Moles at STP
How many moles are in 44.8 liters of O₂ gas at STP?
- 1.At STP, 1 mol gas = 22.4 L
- 2.n = V/22.4 = 44.8/22.4 = 2 mol
44.8 liters of O₂ at STP = 2 mol = 64 grams.