The wavelength of electron waves in two orbits lie in the ratio 3:5 the ratio of kinetic energy of electron will be

The wavelengths of electron waves in two orbits is 3:5. The ratio of kinetic energy of electrons will be

Wavelength of electron waves in two Bohr orbits is in ratio3:5 the ratio of kinetic energy of electron is 25 : x, hence x is :

The wavelenths gamma of a photon and the de-Broglie wavelength of an electron have the same value.Find the ratio of energy of photon to the kinetic energy of electron in terms of mass m, speed of light and planck constatn

de-Broglie wavelength of electrons of kinetic energy E is lambda. What will be its value if kinetic energy of electrons is made 4E ?

Kinetic energy of electron in nth orbit is given by

An electron , initiallty at rest is released from a large distance from a proton (fixed in space ). The de-broglie wavelength of the electron when it is at distance r from proton is lambda the ratio of its kinetic energy at this distance with the kinetic energy of the electron is ground stae of hydrogen atom (Bohr model) with the radius of its orbit being r, is alpha Pick the correct options (s)

In the Bohr's orbit, what is the ratio of total kinetic energy and total energy of the electron

The de-Broglie wavelength of an electron is the same as that of a 50 keV X-ray photon. The ratio of the energy of the photon to the kinetic energy of the electron is ( the energy equivalent of electron mass of 0.5 MeV)

For a satellite moving in an orbit around the earth, ratio of kinetic energy to potential energy is

The wave motion of electron in a Bohr's orbit of hydrogen is as shown in diagram.The potential energy of electron in the given orbit of hydrogen atom is :