Online Combustion Analysis Calculator

Use this Online Combustion Analysis Calculator to work through the same calculation as the main calculator page with clear steps, examples, and result context.

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Quick Answer: Online Combustion Analysis Calculator uses the same formula and workflow as the canonical calculator page.

What This Online Combustion Analysis Calculator Helps You Do

This page helps you move from experimental combustion data to a chemical formula without doing the entire stoichiometry chain by hand. It covers both the standard hydrocarbon workflow and the CHO mass-balance workflow used in introductory and analytical chemistry.

The result panel shows the empirical formula first and then checks whether a supplied molar mass supports a molecular formula. That makes it easier to audit lab work instead of accepting a black-box answer.

How to Calculate Online Combustion Analysis Calculator

  1. Enter the combustion products: Supply the measured masses of carbon dioxide and water from the experiment.
  2. Choose the compound family: Use hydrocarbon mode when the unknown contains only C and H, or CHO mode when oxygen is also present.
  3. Reduce the mole ratios: Convert each element to moles and divide by the smallest value to obtain empirical subscripts.
  4. Scale to a molecular formula when possible: If you know the molar mass, compare it with the empirical-formula mass and multiply the subscripts by the nearest whole-number factor.

Online Combustion Analysis Calculator Formula

n(C)=m(CO2)/44.0095; n(H)=2×m(H2O)/18.0153; n(O)=(m(sample)-m(C)-m(H))/15.999; empirical subscripts are the mole ratios divided by the smallest value.
Variable Meaning Unit
m(CO2) Mass of carbon dioxide produced g
m(H2O) Mass of water produced g
m(sample) Original sample mass for CHO compounds g
n(C), n(H), n(O) Moles of each element in the unknown mol
M Molar mass used to scale empirical to molecular formula g/mol

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

Hydrocarbon - Propene-type sample
  • CO2: 1.760 g
  • H2O: 0.720 g
  • Molar mass: 42.08 g/mol

Result: Empirical formula CH2; molecular formula C3H6.

The combustion data show a 1:2 carbon-to-hydrogen ratio, and the molar mass scales the empirical unit by 3.

CHO compound - Glucose-type ratio
  • Sample mass: 1.800 g
  • CO2: 2.640 g
  • H2O: 1.080 g
  • Molar mass: 180.16 g/mol

Result: Empirical formula CH2O; molecular formula C6H12O6.

Oxygen is recovered by mass balance after carbon and hydrogen are assigned from the combustion products.

Hydrocarbon - Acetylene-type ratio
  • CO2: 2.201 g
  • H2O: 0.450 g

Result: Empirical formula CH.

A 1:1 elemental ratio points to a highly unsaturated hydrocarbon family.

CHO compound - No molecular mass available
  • Sample mass: 0.900 g
  • CO2: 1.320 g
  • H2O: 0.540 g

Result: Empirical formula CH2O.

Without a molar mass, the empirical formula is still enough to describe the simplest whole-number composition.

How to Interpret Your Results

Range Meaning Action
Clean whole-number ratios The measured data are internally consistent. Use the empirical formula directly or scale it with molar mass.
Ratios near fractions Experimental rounding or moisture handling may be affecting the result. Check whether doubling or tripling the ratio set produces stable whole numbers.
Negative oxygen mass in CHO mode The sample mass is too small for the reported combustion products. Recheck the measurements and the assumption that the compound contains only C, H, and O.

Frequently Asked Questions

It gives the elemental composition of an unknown compound by converting the combustion products back into moles of carbon, hydrogen, and sometimes oxygen.

In CHO compounds, oxygen is not measured directly in the products list used here, so the oxygen mass is obtained from the original sample mass after carbon and hydrogen are assigned.

You need the molar mass in addition to the empirical formula. The molecular formula is an integer multiple of the empirical formula.

Real laboratory data include rounding and measurement error, so the calculator fits the mole ratios to the nearest sensible whole-number pattern.
Combustion Reaction Calculator
Concentration Calculator
Degree of Unsaturation Calculator
Double Bond Equivalent Calculator
Note: This calculator assumes complete combustion and either a hydrocarbon or a compound containing only carbon, hydrogen, and oxygen.

References

Last reviewed: March 2026

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