The frequencies of X-rays, -rays and ultraviolet rays are respectively a, b and c. Then :
(1) a < b, b < c
(2) a > b, b > c
(3) a > b, b > a
(4) a < b, b > c
A plane electromagnetic wave of frequency 40 MHz travels in free space in the x-direction. At some point and at some instant, the electric field has its maximum value of 750 N/C in y-direction. The wavelength of the wave is
(1) 3.5 m
(2) 5.5 m
(3) 7.5 m
(4) 9.5 m
The waves used in telecommunication are
(1) infrared
(2) visible light
(3) microwaves
(4) ultraviolet rays
The frequency \(1057~\text{MHz}\) of radiation arising due to electron transition between two close energy levels in hydrogen belongs to:
1. radio waves
2. infrared waves
3. microwaves
4. \(\gamma\text-\)rays
The shortest wavelength of X-rays emitted from an X-ray tube depends upon
(1) nature of the gas in the tube
(2) the voltage applied to the tube
(3) current in the tube
(4) nature of the target of the tube
X-rays are not used for radar purposes, because they are not
(1) reflected by target
(2) partly absorbed by the target
(3) electromagnetic waves
(4) completely absorbed by the target
The energy of the X-rays photon is 3.3J. Its frequency is :
(1)
(2)
(3)
(4)
A plane electromagnetic wave
propagates in a medium of dielectric constant
(1) 1.5
(2) 2.0
(3) 2.4
(4) 4.0
The magnetic field between the plates of radius 12 cm separated by a distance of 4 mm of a parallel plate capacitor of capacitance 100 pF along the axis of plates having conduction current of 0.15 A is
(1) zero
(2) 1.5 T
(3) 15 T
(4) 0.15 T
A larger parallel plate capacitor, whose plates have an area of \(1~\text{m}^2,\) separated from each other by \(1~\text{mm},\) is being charged at a rate of \(25.8~\text{V/s}.\) If the plates have a dielectric constant \(10,\) then the displacement current at this instant is:
1. \(25~\mu\text{A}\)
2. \(11~\mu\text{A}\)
3. \(2.2~\mu\text{A}\)
4. \(1.1~\mu\text{A}\)