Molar Ratio Calculator
Use this Molar Ratio Calculator to work through the same calculation as the main calculator page with clear steps, examples, and result context.
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What This Molar Ratio Calculator Helps You Do
This page strips stoichiometry back to the key move you repeat in almost every chemistry problem: converting moles between two substances using their balanced-equation coefficients. That makes it useful whether you are moving from reactant to reactant, reactant to product, or product back to reactant.
Keeping the coefficient ratio visible in the result also makes it easier to audit your setup before you move on to limiting-reagent or mass calculations.
How to Calculate Molar Ratio Calculator
- Read the balanced equation: Take the coefficients of the two substances you want to compare from the balanced reaction.
- Enter the known moles: Choose whether the known amount belongs to substance A or substance B.
- Apply the coefficient ratio: Multiply the known amount by the target coefficient and divide by the known coefficient.
- Interpret the stoichiometric relation: The result tells you how many moles are required or produced if the reaction follows the balanced equation exactly.
Molar Ratio Calculator Formula
| Variable | Meaning | Unit |
|---|---|---|
| n_known | Known amount of the starting substance | mol |
| n_target | Calculated amount of the target substance | mol |
| coefficient | Stoichiometric coefficient from the balanced equation | dimensionless |
Use the worked examples below to check how the formula behaves with real values. If the result looks unexpected, verify the unit assumptions and the meaning of each variable before interpreting the answer.
Worked Examples
- Known species coefficient: 2
- Target coefficient: 1
- Known moles: 4 mol H2
Result: Required O2 = 2 mol.
The coefficient ratio 1:2 halves the moles when converting from H2 to O2.
- Known species coefficient: 1
- Target coefficient: 2
- Known moles: 1.5 mol N2
Result: Produced NH3 = 3.0 mol.
The product coefficient doubles the starting moles of N2.
- Known species coefficient: 1
- Target coefficient: 1
- Known moles: 0.8 mol CO2
Result: Corresponding CaCO3 = 0.8 mol.
Equal coefficients produce a one-to-one molar ratio.
- Known coefficient: 4
- Target coefficient: 3
- Known moles: 10 mol
Result: Target amount = 7.5 mol.
The coefficient ratio directly scales the mole conversion.
How to Interpret Your Results
| Range | Meaning | Action |
|---|---|---|
| Target coefficient less than known coefficient | The target mole count will be smaller than the known amount. | Expect the result to scale down in proportion to the coefficient ratio. |
| Equal coefficients | The substances have a one-to-one molar ratio. | The mole values transfer directly between the two substances. |
| Target coefficient greater than known coefficient | The target mole count will be larger than the known amount. | Expect the result to scale up in proportion to the coefficient ratio. |
Frequently Asked Questions
References
Last reviewed: March 2026