Wavelength equals Planck's Constant divided by momentum.
It can. See link for de Broglie wavelength.
No, the de Broglie wave is not an electromagnetic wave. It is a wave associated with particles, such as electrons and other subatomic particles, and is used to describe their wavelike behavior. electromagnetic waves, such as light, are different phenomena that involve oscillating electric and magnetic fields.
Louis de Broglie
In short, it is called de Broglie wave (or matter wave). Which relates frequency and wavelength to momentum and energy. This relation then leads to group velocity which is an important part of quantum mechanics.
he died of natural causes
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louis de broglie
It can. See link for de Broglie wavelength.
Louis de Broglie was a French physicist and Nobel Prize Winner best known for wave-particle duality. He laid out the converse idea of Einstein's that a wave is a particle. According to de Broglie, a particle is a wave. He was awarded the 1929 Nobel Prize for physics.
To describe the de Broglie wave equation, we need to back up just a bit and look at something regarding fundamental particles. One of the curiosities of physics is the idea of wave-particle duality. When we inspect a fundamental particle, like the electron for example, we find that it can be looked at either as a particle or as a wave. A particle has mass, and it has both momentum and some amount of energy associated with it. Both momentum and energy are associated with matter. A wave, on the other hand, has both wavelength and frequency characteristic of that wave. Frequency and wavelength are associated with a wave. In wave-particle duality, the particle has to have a way its mass can be equated with the wave. And de Broglie stepped in to supply the equations that specify the relationship between the momentum and energy of a particle, and the frequency and wavelength of it's equivalent wave. Use the link below to check out the formula and learn more. These two equations are simple and easy, and it would be wise to look them over.
According to De Broglie all the matter follows both particle nature and wave nature.The wave thus associated with the matter is called a matter wave.
The Nobel Prize in Physics 1929 was awarded to Louis de Broglie for his discovery of the wave nature of electrons.
Yes he formed the wave-like particle theorem.
standing wave with vibrating particles