Answer to Question #160005 in Quantum Mechanics for Bhavana

Question #160005

Calculate de broglie wavelength and velocity of an electron carrying kinetic energy 2keV

Expert's answer

From the definition of the de Broglie wavelength, we have:

"\\lambda=\\dfrac{h}{p}=\\dfrac{h}{mv}."

Let's find the velocity of the electron from the definition of the kinetic energy:

"KE=\\dfrac{1}{2}mv^2,""v=\\sqrt{\\dfrac{2KE}{m}}."

Substituting "v" into the first equation, we get:

"\\lambda=\\dfrac{h}{\\sqrt{2mKE}},"

"\\lambda=\\dfrac{6.626\\cdot10^{-34}\\ J\\cdot s}{\\sqrt{2\\cdot9.1\\cdot10^{-31}\\ kg\\cdot2\\cdot10^3\\ eV\\cdot1.6\\cdot10^{-19}\\ \\dfrac{J}{eV}}}=2.74\\cdot10^{-11}\\ m."

Finally, we can find the velocity of the electron:

"v=\\sqrt{\\dfrac{2\\cdot2\\cdot10^3\\ eV\\cdot1.6\\cdot10^{-19}\\ \\dfrac{J}{eV}}{9.1\\cdot10^{-31}\\ kg}}=2.65\\cdot10^7\\ \\dfrac{m}{s}."

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Answer to Question #160005 in Quantum Mechanics for Bhavana

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