Dilution Calculator – C₁V₁ = C₂V₂
Instantly find your stock volume or final volume — values update in real time as you type.
The basics
How to Use This Dilution Calculator
This free dilution calculator works in two modes. Here’s how to get your answer in seconds:
- Choose your mode. Select Find Stock Volume (V₁) if you know your desired final volume and need to know how much stock to take. Select Find Final Volume (V₂) if you know how much stock you’re starting with.
- Enter C₁ — your stock or initial concentration (e.g., 1 M, 10%, 500 ppm).
- Enter C₂ — your desired final concentration (e.g., 0.1 M, 1%, 50 ppm).
- Enter the known volume — either V₂ (final volume) or V₁ (stock volume), depending on your mode.
- Select your units. Pick matching concentration and volume units from the dropdowns. Choose “Custom…” to type your own label.
- Read your results instantly. Tap “Show step-by-step” for the full working, or “Copy Results” to save your values.
Use the Reset button to return to defaults at any time. This solution dilution calculator recalculates automatically as you type — no submit button needed.
Core Formula
Understanding the Dilution Formula (C₁V₁ = C₂V₂)
The equation behind this C1V1 C2V2 calculator is one of the most fundamental in chemistry:
C₁V₁ = C₂V₂
Each variable represents:
- C₁ — the initial (stock) concentration of your solution.
- V₁ — the volume of stock solution you will take.
- C₂ — the desired final concentration after dilution.
- V₂ — the total final volume of the diluted solution.
The principle is simple: the amount of solute stays constant during dilution — you’re only adding more solvent. So C₁ × V₁ (moles in the stock portion) must equal C₂ × V₂ (moles in the final solution).
Rearranging for each unknown:
- To find V₁: V₁ = (C₂ × V₂) / C₁
- To find V₂: V₂ = (C₁ × V₁) / C₂
- To find C₁: C₁ = (C₂ × V₂) / V₁
- To find C₂: C₂ = (C₁ × V₁) / V₂
Units consistency is critical. C₁ and C₂ must be in the same units. V₁ and V₂ must share the same volume unit. This chemistry dilution calculator displays your chosen labels but does not convert between units — ensure your values are consistent before calculating.
Real-World Examples
Common Dilution Examples
V₁ = (0.1 × 1000) / 1 = 100 mL of stock
Add 100 mL of 1 M stock to a volumetric flask, then top up to 1000 mL with distilled water.
C₁ = 5%, C₂ = 0.5%, V₂ = 1000 mL
V₁ = (0.5 × 1000) / 5 = 100 mL of bleach + 900 mL water. A classic use case for a stock solution dilution calculator.
V₁ = (250 × 2000) / 10000 = 50 µL of stock + 1950 µL buffer. Common in ELISA and Western blot preparation.
V₁ = (70 × 500) / 95 ≈ 368.4 mL of 95% ethanol + 131.6 mL water.
Note: for precise alcohol dilution, a dedicated calculator applying density corrections accounts for volumetric contraction.
Frequently Asked Questions
What is the dilution equation?
How do I calculate dilution factor?
Can I use different units for C₁ and C₂?
What if my desired concentration is higher than my stock?
How does serial dilution work?
Is this calculator accurate for alcohol dilution?
Tips for Accurate Dilutions
- Always add solute to solvent — for concentrated acids especially, adding water to acid can cause dangerous exothermic reactions. Always add the concentrated solution into the bulk solvent.
- Use volumetric glassware — volumetric flasks, pipettes, and burettes are calibrated for precision. Use them over graduated cylinders for high-accuracy work.
- Mix thoroughly before measuring — incomplete mixing creates local concentration gradients that affect downstream measurements.
- Account for temperature — volumes change with temperature. Perform dilutions at the calibration temperature of your glassware (typically 20°C or 25°C) for critical work.
- Label everything immediately — include concentration, solvent, date, and your name on every container right after preparation.
- Double-check your units before entering values into any chemistry dilution calculator. Unit mismatches are the most common source of error.