Physics Course/Types of Waves/Matter Waves

De Brolie's Wavelength

If there is a mometum travels at speed of light and has an quantum energy level

pc=h{\frac {c}{\lambda }}

\lambda ={\frac {h}{p}}=({\frac {h}{c}})({\frac {1}{m}})

From formula above the wavelenght of Charged Particles can be calculated Electron's Wavelength

\lambda ={\frac {h}{c}}{\frac {1}{m_{e}}}

Photon's Wavelength

\lambda ={\frac {h}{c}}{\frac {1}{m_{e}}}

Neutron's wavelenght

\lambda ={\frac {h}{c}}{\frac {1}{m_{e}}}