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Who is this calculator for?

Anyone who needs a quick, precise answer: students, professionals, engineers, teachers, DIYers — anyone working with chemistry-related numbers.

Chemistry

Boyle’s Law Calculator

P₁V₁ = P₂V₂. Free online Boyle’s Law Calculator. Calculate boyle’s law online — fast, accurate, mobile-friendly, no signup needed.

P₁·V₁ = P₂·V₂ (at constant T).

P₁

V₁

V₂

P₂

Derivation

├── 01GivenP1 = 1, V1 = 10, V2 = 5
├── 02Formulae.P1 × e.V1 / e.V2
├── 03Substitutee.1 × e.10 / e.5
└── 04Compute P₂2

Did you know?

Robert Boyle (1662) discovered that for a fixed gas at constant T, P·V is constant — arguably the first scientific law expressed as an equation.

§01What is

Understanding the Boyle’s Law Calculator

The Boyle’s Law Calculator computes P₂ from 3 inputs: p₁, v₁, v₂. P₁V₁ = P₂V₂.

Chemistry turns grams and moles into reactions. Getting the stoichiometry, dilutions, or concentrations right is the difference between a lab result you can trust and one you can’t reproduce. The Boyle’s Law Calculator sits in that toolkit — it P₁V₁ = P₂V₂. Enter your numbers above and the result updates instantly; every step of the math is shown in the Derivation panel so you can see exactly how the answer was reached.

§02The Formula

How it’s calculated

e.P1 × e.V1 / e.V2

Where

P1: P₁
V1: V₁
V2: V₂

§03Practical Example

Step-by-step walkthrough

Scenario

Apply the formula to a realistic set of inputs: P₁ = 1, V₁ = 10, V₂ = 5.

01Start by noting the input — P₁: 1.
02Start by noting the input — V₁: 10.
03Start by noting the input — V₂: 5.
04Substitute these values into the formula: e.P1 × e.V1 / e.V2
05Compute P₂: the calculator returns 2.
06Cross-check the answer by opening the Derivation panel above — every line of math is shown so you can follow the computation end-to-end.

§04Variants

Common Boyle’s Law Problems

The formula gets rearranged depending on which variable you need. Here are the patterns you’ll run into in the real world — find the one that matches your problem and follow the worked steps.

01 · PATTERN

P₁ halved

P1 = 0.5 (from 1)

Keep every other input at its default and halve the p₁. See how p₂ responds.

01New P₁: 0.5
02Baseline P₂: 2
03New P₂: 1
04P₂ decreases by 50% → use this sensitivity to plan for real-world variation.

02 · PATTERN

P₁ doubled

P1 = 2 (from 1)

Keep every other input at its default and double the p₁. See how p₂ responds.

01New P₁: 2
02Baseline P₂: 2
03New P₂: 4
04P₂ increases by 100% → use this sensitivity to plan for real-world variation.

03 · PATTERN

V₁ halved

V1 = 5 (from 10)

Keep every other input at its default and halve the v₁. See how p₂ responds.

01New V₁: 5
02Baseline P₂: 2
03New P₂: 1
04P₂ decreases by 50% → use this sensitivity to plan for real-world variation.

04 · PATTERN

V₁ doubled

V1 = 20 (from 10)

Keep every other input at its default and double the v₁. See how p₂ responds.

01New V₁: 20
02Baseline P₂: 2
03New P₂: 4
04P₂ increases by 100% → use this sensitivity to plan for real-world variation.

§05FAQ

Frequently asked questions

Yes. The calculator implements the standard formula as documented and returns exact floating-point results. No approximations are used unless noted in the formula.

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