Scientific Constants Reference

Search frequently used physics and chemistry constants from the 2022 CODATA recommended values.

Fundamental scientific constants and their units

Fundamental physical constants connect measured quantities across physics and chemistry. Some constants have exact values because the SI defines units through them; others remain experimentally measured.

The table identifies exact and measured values and preserves the uncertainty notation published with measured CODATA values.

How to use the scientific constants reference

  1. Search: Enter a constant name, symbol, or related term.
  2. Filter: Show all values or only exact or measured constants.
  3. Copy carefully: Copy both value and SI unit into the calculation.

Formula and variables

A constant must be used with its unit and full exponent. Parentheses after measured values give standard uncertainty in the last displayed digits.

x = value × SI unit
cSpeed of light
Exact defining constant (m s⁻¹)
hPlanck constant
Exact defining constant (J Hz⁻¹)
GGravitational constant
Measured constant (m³ kg⁻¹ s⁻²)

Photon energy from frequency

Use the Planck constant to calculate E = hf for frequency f.

h
6.62607015 × 10⁻³⁴ J Hz⁻¹
f
5.00 × 10¹⁴ Hz
  1. E = hf
  2. E = (6.62607015 × 10⁻³⁴)(5.00 × 10¹⁴)

Result: E ≈ 3.31 × 10⁻¹⁹ J.

The h value is exact, while the example frequency controls the shown precision.

Understanding your results

Exact versus measured constants

Exact values have no measurement uncertainty in the SI; measured values can change when CODATA publishes a new adjustment.

  • Do not drop powers of ten or units when copying a constant.
  • Carry sufficient digits during calculation and round the final result appropriately.

Assumptions

  • Values use SI units unless the table explicitly states otherwise.
  • Displayed measured values follow the 2022 CODATA adjustment.

Limitations

  • This is a concise reference rather than the complete CODATA database.
  • It does not provide covariance data or machine-readable uncertainty propagation.

Common mistakes

  • Using an older measured value without checking the adjustment year.
  • Confusing uppercase G with standard gravity g.
  • Copying a value without its exponent or unit.
  • Treating a parenthetical uncertainty as part of the central value.

Practical use cases

Physics calculations

Find constants for mechanics, electromagnetism, quantum physics, and relativity.

Chemistry calculations

Use Avogadro, Boltzmann, gas, and Faraday constants with their SI units.

Frequently asked questions

Why are some scientific constants exact?

The modern SI assigns exact numerical values to defining constants such as c, h, e, k, and Nₐ. Derived combinations of exact constants can also be exact.

What do digits in parentheses mean?

They state the standard uncertainty in the last digits shown. For example, 6.67430(15) means an uncertainty of 0.00015 at that coefficient scale.

Sources and review

Reviewed 2026-07-14.

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