The time by a photoelectron to come out after the photon strikes is approximately
10−1 s
10−4 s
10−10 s
10−10 s
An alpha nucleus of energy 1 /2 mv2 bombards a heavy nuclear target of charge Ze. Then the distance of closest approach for the alpha nucleus will be proportional to
1/Ze
v2
1/m
1/m
If I0 is the intensity of the principal maximum in the single slit diffraction pattern, then what will be its intensity when the slit width is doubled?
2I0
4I0
I0
I0
The maximum number of possible interference maxima for slit-separation equal to twice the wavelength in Young’s double-slit experiment is
infinite
five
three
three
An electromagnetic wave of frequency ν = 3.0 MHz passes from vacuum into a dielectric medium with permittivity ε = 4.0. Then
wavelength is doubled and the frequency remains unchanged
wavelength is doubled and frequency becomes half
wavelength is halved and frequency remains unchanged
wavelength is halved and frequency remains unchanged
According to Einstein’s photoelectric equation, the plot of the kinetic energy of the emitted photo electrons from a metal Vs the frequency, of the incident radiation gives straight line whose slope
depends on the nature of the metal used
depends on the intensity of the radiation
depends both on the intensity of the radiation and the metal used
depends both on the intensity of the radiation and the metal used
The work function of a substance is 4.0 eV. Then longest wavelength of light that can cause photoelectron emission from this substance approximately
540 nm
400 nm
310 nm,
310 nm,
C.
310 nm,
The angular width of the central maximum in a single slit diffraction pattern is 60°. The width of the slit is 1 μm. The slit is illuminated by monochromatic plane waves. If another slit of same width is made near it, Young’s fringes can be observed on a screen placed at a distance 50 cm from the slits. If the observed fringe width is 1 cm, what is slit separation distance?
(i.e. distance between the centres of each slit.)
100 μm
25 μm
50 μm
75 μm
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
If the work functions of three photosensitive materials are 1 eV, 2 eV and 3 eV respectively, then the ratio of the respective frequencies of light that produce photoelectrons of maximum kinetic energy of 1 eV from each of them is
1 : 2 : 3
2 : 3 : 4
1 : 1 : 1
3 : 2 : 1