Stoichiometry ??? (Limiting Reagent, Theoretical Yield, Percent Yield)
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Stoichiometry ??? (Limiting Reagent, Theoretical Yield, Percent Yield)

Calculate limiting reagent, excess, theoretical yield, and percent yield from coefficients and input amounts (g/mol/M×L).

This tool performs calculations only. It does not provide procedures, conditions, or safety guidance.
???? example
Examples fill the form.
1) Reaction definition
??matic balancing is not provided. Enter coefficients manually.
?? mode
Reactants
Coeff. Species Molar mass (g/mol) Actions
Products
Coeff. Species Molar mass (g/mol) Actions
?? from formula: planned
2) ?? amounts
Set the input type per reactant. Values are converted to mol for calculation.
Limiting reagent requires all reactant inputs.
Enable yield inputs
Theoretical × expected = estimated yield.
4) Calculation settings

Stoichiometry ??? (Limiting Reagent ???, Theoretical Yield, Percent Yield ???)

Stoichiometry ??? (Limiting Reagent ???, Theoretical Yield, Percent Yield ???)

Use balanced coefficients and input amounts to compute limiting reagent, excess, and theoretical yield.

Limiting Reagent ???: How to find the limiting reagent

Compute n_i / ν_i for each reactant and take the minimum; this tool shows the ratios explicitly.

Percent Yield ???: Percent yield calculation

Percent yield = actual / theoretical × 100. Expected yield is also supported for planning.

?? ?? ??

Does it auto-balance reactions?
???. Enter coefficients manually to avoid misinterpretation. ??-balance may be added later.
Can I use solution inputs (M × L)?
?. Moles are calculated as concentration × volume.
Multiple-step reactions?
Compute each step separately and carry the product to the next step (multi-step support is planned).
Which product does percent yield use?
?? a target product when multiple products are present.
Reagent purity or assay?
Set purity (%) to adjust effective moles.

???? (Disclaimer & Safety)

  • This page is a calculation tool only. It does not provide procedures, conditions, safety guidance, equipment, or hazard assessments.
  • Real reactions may deviate due to side reactions, equilibrium, solubility, kinetics, and losses.
  • Enter coefficients manually; automatic balancing is not performed.