What is the energy of the electron revolving in third orbit expressed in eV ?
1.51 eV
3.4 eV
4.53 eV
4 eV
An α -particle of energy 5 MeV is scattered through 180° by gold nucleus. The distance of closest approach is of the order of
10-14 cm
10-10 cm
10-16 cm
10-12 cm
Find the de-Broglie wavelength of an electron with kinetic energy of 120 eV.
112 pm
95 pm
124 pm
102 pm
What is the wavelength of light for the least energetic photon emitted in the Lyman series of the hydrogen spectrum ? (take, hc = 1240 eV nm)
122 nm
82 nm
150 nm
102 nm
If an electron in hydrogen atom jumps from an orbit of level n = 3 to an orbit oflevel n =2, the emitted radiation has a frequency (R = Rydberg constant, c = velocity of light)
The de-Broglie wavelength of an electron accelerated to a potential of 400 V is approximately
0.03 nm
0.04 nm
0.12 nm
0.06 nm
Total energy of electron in an excited state of hydrogen atom is − 3.4 eV. The kinetic and potential energy of electron in this state are
K = − 3.4 eV, U = − 6.8 eV
K = 3.4 eV, U − 6.8 eV
K = − 6.8 eV, U = + 3.4 eV
K = + 10.2 eV, U = − 13.6 eV
B.
K = 3.4 eV, U − 6.8 eV
When electron jumps from n = 4 level to n = 1 level, the angular momentum of electron changes by
A particle is dropped from a height H. The de-Broglie wavelength of the particle depends on height as
H-1/2
H0
H1/2
H
The energy (in eV) required to excite an electron from n = 2 to n = 4 state in hydrogen atom is
− 0.85
+ 4.25
− 3.4
+ 2.55