A: Microwave propagation is better than the skywave propagation.
R: Microwaves have frequencies 100 to 300 GHz which have very good directional properties.

(A) : Propagation of electromagnetic waves as microwaves is better than that as sky waves. (R) : Microwaves have frequencies 100 GHz to 300 GHz with very good directional properties.

The mode of propagation used by short wave broadcast services having a frequency range from a few 3 MH_z "up to 30" MH_z is

A : Food is cooked faster by microwaves than by conventional gas burner. R : Microwaves have more energy than heat waves.

A : Microwaves are commonly used in radar to locate flying objects. R : Microwaves have-smaller wavelength than radiowaves.

Which of the following is better propagation mode to propagate television frequency and radar signals ?

Two identical light waves, propagating in the same direction, have a phase difference delta . After they superpose, the intensity of the resulting wave will be proportional to

Which mode of propagation is used by short wave broadcast services having frequency range from a few MHz upto 30 MHz ? Explain diagrammatically how long distance communication can be achieved by this mode . Why is there an upper limit to frequency of waves used in this mode ?

A ball of radius R=100cm is located in the way of propagation of a plane sound wave. The sonic wavelength is lambda=2cm , the frequency is v=100pi Hz , the pressure oscillation amplitude in air is (Deltap)_(m)=4Pa . Find the mean energy flow rate (in watt), averaged over an oscillation period, reaching the surface of the ball. Take density of air 1 kg//m^(3) .

Statement-1 : Electromagnetic waves with frequencies smaller than the critical frequency of ionosphere cannot be used for communications using sky wave propagation. Statement-2: The refractive index of the ionosphere becomes very high for frequencies higher than the critical frequency.

Consider a wave propagating in the negative x-direction whose frequency is 100 Hz . At t = 5 s ,the displacement associated with the wave is given by y=0.5 cos (0.1 x) where x and y are measured in centimetres and t in seconds. Obtain the displacement (as a function of x) at t = 10 s . What is the wavelength and velocity associated with the wave?