What wavelength must electromagnetic radiation have if a photon in the beam has the same momentum as an electron moving with a speed 1.1 x 105 m/s (Planck's constant = 6.6 x 10-34 J-s, rest mass of electron = 9 x 10-31 kg ?
2/3 nm
20/3 nm
4/3 nm
40/3 nm
Huygens' wave theory of light cannot explain
Diffraction phenomena
Interference phenomena
Photoelectric effect
Polarization of light
An electron, a neutron and an alpha particle have same kinetic energy and their de-Broglie wavelength are λe, λn, λα and respectively. Which statement is correct about their de-Broglie wavelengths ?
λe > λn > λα
λe < λn > λα
λe < λn < λα
λe > λn < λα
It takes 4.6 eV to remove one of the least tightly bound electrons from a metal surface. When monochromatic photons strike the metal surface, electrons having kinetic
energy from zero to 2.2 eV are ejected. What is the energy of the incident photons ?
2.4 eV
2.2 eV
6.8 eV
4.6 eV
C.
6.8 eV
According to question, the work function of the metal surface is W = 4.6 eV
and K.E of ejected electron = 2.2 eV
Let the energy of incident photon is E.
i.e, E = W + Ke
Ke = Kinetic energy of ejected electrons
E = 4.6 eV + 2.2 eV
= 6.8 eV
For a P-N junction diode
Forward current in mA and reverse current is in µA
Forward current is in µA are reverse current is in mA
Both forward and reverse currents are in µA
Both forward and reverse currents are in mA
For a Zener diode
both p and n regions are heavily doped
p region is heavily doped but n region is lightly doped
n region is heavily doped but p region is lightly doped
both p and n regions are lightly doped
Speech signals is in the range of
3700 Hz to 7000 wavelength
20 Hz to 20 kHz frequency
300 Hz to 3100 Hz frequency
540 kHz to 1600 kHz frequency
To transmit a signal of frequency ωm with a carrier frequency ωc, in AM transmission, the bandwidth of the filter and amplifier is
ωm
2ωm
ωc
ωc − ωm
Which of the following particle when bombards on 65Cu will turn into 66Cu ?
Proton
Neutron
Electron
Alpha particle