免费德布罗意波长计算器
根据粒子的动量计算物质波的波长。
De Broglie Wavelength
0.00000000072741 m
公式
## De Broglie Wavelength All matter has wave-like properties. The de Broglie wavelength describes the wave nature of particles. ### Formula **lambda = h / (m * v) = h / p** where h = 6.626 x 10^-34 J·s is Planck's constant and p = mv is the momentum. Heavier or faster particles have shorter wavelengths.
计算示例
An electron (m = 9.109e-31 kg) traveling at 1e6 m/s.
- 01lambda = h / (m*v)
- 02lambda = 6.626e-34 / (9.109e-31 * 1e6)
- 03lambda = 6.626e-34 / 9.109e-25
- 04lambda = 7.274e-10 m = 0.7274 nm
常见问题
Why don't we notice the wave nature of everyday objects?
The wavelength is inversely proportional to mass and velocity. For macroscopic objects, lambda is incomprehensibly tiny (far smaller than an atomic nucleus).
How is this used in electron microscopy?
Fast electrons have wavelengths much smaller than visible light, allowing electron microscopes to resolve features at the atomic scale.
Who was Louis de Broglie?
A French physicist who proposed in 1924 that all matter has wave properties. He won the Nobel Prize in 1929 for this insight.
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