De Broglie Wavelength Calculator

Calculate a nonrelativistic particle’s De Broglie wavelength from mass and velocity.

De Broglie wavelength formulas and interpretation

De Broglie’s relation assigns a wavelength to a particle according to its momentum.

The calculator preserves mass and velocity inputs with scientific-notation output.

How to use the De Broglie wavelength calculator

  1. Choose a model: Select the relationship matching the problem.
  2. Choose the unknown: Select the quantity to calculate.
  3. Enter values: Enter all known values with matching units and signs.
  4. Calculate: Review the result, formula, units, and direction.

Formula and variables

Matter-wave wavelength equals Planck’s constant divided by particle momentum.

λ = h/p = h/(mv)
λWavelength
De Broglie matter wavelength (m)
hPlanck constant
Exact SI action constant (J·s)
pMomentum
Particle momentum (kg·m/s)
mMass
Particle rest mass (kg)
vVelocity
Nonrelativistic speed (m/s)

Electron example

An electron moves at 1 × 10⁶ m/s.

Electron mass
9.109 × 10⁻³¹ kg
Speed
1 × 10⁶ m/s
  1. λ = h/(mv)
  2. λ ≈ 7.27 × 10⁻¹⁰ m

Result: Wavelength is about 0.727 nm.

This scale is comparable with atomic dimensions.

Understanding your results

Interpreting the result

The basic mv form is nonrelativistic; use relativistic momentum as speed approaches light speed.

Assumptions

  • The selected equation represents the physical system.
  • Inputs use a consistent reference direction.
  • Values are converted through coherent SI units.

Limitations

  • Vector components must be resolved along a common axis.
  • External forces or energy losses are not added automatically.
  • Results depend on the accuracy of entered measurements.

Common mistakes

  • Mixing incompatible units.
  • Dropping negative signs that represent direction.
  • Using weight where mass is required.
  • Entering a zero divisor.

Practical use cases

Physics problems

Check classroom, laboratory, and mechanics calculations.

Practical estimates

Estimate motion, forces, and energy for real systems.

Frequently asked questions

Can a result be negative?

Yes. For directional quantities, the sign indicates direction relative to the chosen positive axis.

Should I use SI units?

The interface can convert supported units, while the formulas are evaluated through coherent SI units.

Sources and review

Reviewed 2026-07-11.

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