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The Relation between de Broglie wavelength and kinetic energy of particle is associated with a particle/electron and is related to its mass, m, and kinetic energy, KE through the Planck constant, h and is represented as位 = [hP]/sqrt(2*KE*m) or Wavelength = [hP]/sqrt(2*Kinetic Energy*Mass of Moving Electron).

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  • What is the de Broglie wavelength of an electron?

  • The de Broglie wavelength of an electron is comparable with X-ray wavelengths. However, for the ball, it is about 10 -19 times the size of the proton, quite beyond experimental measurement. Ques. An electron, an 伪-particle, and a proton have the same kinetic energy.

  • What is the relation between de-Broglie wavelength and kinetic energy?

  • The Relation between de-Broglie wavelength and kinetic energy of particle is associated with a particle/electron and is related to its mass, m and kinetic energy, KE through the Planck constant, h and is represented as 位 = [hP]/sqrt(2*KE*m) or wavelength = [hP]/sqrt(2*Kinetic Energy*Mass of moving electron).

  • What is the relationship between de Broglie equation and temperature?

  • There exists a relation between the De-Broglie equation and the temperature of the given gas molecules, and the thermal de Broglie wavelength gives it ( 位 T h). The Thermal de Broglie equation represents the average value of de Broglie wavelength of the gas particles at the specified temperature in an ideal gas.

  • What are the applications of de Broglie waves?

  • Applications of de Broglie Waves 1. The wave properties of matter are only observable for very small objects, de Broglie wavelength of a double-slit interference pattern is produced by using electrons as the source. 10 eV electrons (which is the typical energy of an electron in an electron microscope): de Broglie wavelength = 3.9 x 10 -10 m.

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