Microwaves from a transmitter are directed normally toward a plane reflector. A detector moves along the normal to the reflector. Between positionsof 14 m successive maxima the detector travels a distance 0.14 m. The frequency of the transmitter is `(c = 3 xx 10^(8) m s^(-1))`.

Microwaves from a transmitter are directed normally toward a plane reflector. A detector moves along the normal to the reflector. Between positions of 14 successive maxima the detector travels a distance 0.14 m. The frequency of the transmitter is (c = 3 xx 10^(8) m s^(-1)) .

Microwaves from a transmitter are directed normally toward a plane reflector. A detector moves along the normal to the reflector. Between positions of 14 successive maxima the detector travels a distance 0.14 m. The frequency of the transmitter is (c = 3 xx 10^(8) m s^(-1)) .

Plane microwaves from a transmitter are directed normally towards a plane reflector. A detector moves along the normal to the reflection. Between positions of 14 successive maxima, the detector travels a distance 0.14m. If the velocity of light is 3 xx 10^(8) m//s , find the frequency of the transmitter.

Plane microwaves from a transmitter are directed normally towards a plane reflector. A detector moves along the normal to the reflection. Between positions of 14 successive maxima, the detector travels a distance 0.14m. If the velocity of light is 3 xx 10^(8) m//s , find the frequency of the transmitter.

From a TV tower waves are sent normally to a plane reflector. A detector moves along this normal and covers a distance S between positions of first and nth successive maxima. Velocity of light in air is c, then probable frequency of TV waves is

Calculate the force of attraction between a proton and an electron separated by a distance of 8xx10^(-14) m