What if an electron and a proton have same de Broglie wavelength?

What if an electron and a proton have same de Broglie wavelength?

If a proton and electron have the same de broglie wavelength their momentum will be equal. Hence the correct answer is option (A) Momentum of electron = momentum of proton.

Does electron or proton have greater de Broglie wavelength?

i.e., De-Broglie wavelength of electron is more than that of proton.

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Which is greater the energy of a photon or the kinetic energy of an electron?

i.e., Kinetic energy of the photon is greater than that of the electron . As it moves with the speed c, it is faster than electron.

Can a photon and electron of same momentum have same wavelength compare their wavelength if the two have same energy?

If a photon and an electron have the same momentum, they WILL have the same wavelength, as they are both quantum objects. The momentum-wavelength relationship is given by the de-Broglie law.

Which has a smaller de Broglie wavelength?

According to the de-Broglie equation λ = h /m×v ; for same value of velocity λ= 1/ m. ∴ O2 Molecule has shortest wavelength.

Does a photon have the same energy as an electron?

An electron (of mass m) and a photon have the same energy E in the range of a few eV. The ratio of the de-Broglie wavelength associated with the electron and the wavelength of the photon is (c = speed of light in vacuum)

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Can a photon and an electron of the same energy have the same wavelength?

What is the ratio of de Broglie wavelength of electron and proton?

The ratio of De Broglie wavelength of electron and proton is 0.0233.

Can a photon and an electron have the same de Broglie wavelength?

> If a photon and an electron… Where E is kinetic energy. Given that both the electron and proton have the same De Broglie wavelength. Was this answer helpful?

Does an electron have more energy than a proton?

Hence the energy will be same but we can presume the randomness of the electron and proton, that electron would have more velocitiy than proton since proton being heavier than an electron. What is the physical meaning of the de Broglie wavelength of an electron?

What is the difference between the wavelength of proton and electron?

What makes the difference is the rest mass energies of the particles. Since, proton is more massive and has a rest mass energy greater than that of electron, it must have a low value of “cp” that that of electron. Therefore, it must have a lower momentum than the electron to have the same wavelength.

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Which particle has the same kinetic energy as an electron?

An electron, an alpha particle, and a proton have the same kinetic energy. Which of these particles has the shortest de-Broglie wavelength? 8 clever moves when you have $1,000 in the bank. We’ve put together a list of 8 money apps to get you on the path towards a bright financial future.