Two opposite charaged particles oscillate about their mean equilibrium position in free space, with a frequency of `10^(9)` Hz. The wavelength of the corresponding electromagnetic wave produced is ……..

A charged particle oscillates about its mean equilibrium position with a frequency of 10^(9) Hz. What is the frequency of the electromagnetic waves produced by the oscillator?

A circular coil of 16 turns and radius 10 cm carrying a current of 0.75 A rests with its plane normal to an external field of magnitude 5.0 xx 10^(-2)T. The coil is free to turn about an axis in its plane perpendicular to the field direction. When the coll is turned slightly and released, it oscillates about its stable equilibrium with a frequency of 2.0 s^(-1). What is the moment of inertia of the coil about its axis of rotation?

Two particle are oscillating along two close parallel straight lines side by side, with the same frequency and amplitude. They pass each other, moving on opposite directions when their displacement is half of the amplitude. The mean positions of the two particles lie on a straight line perpendicular to the paths of the two particles. The phase difference is.........

In a plane electromagnetic wave, the electric field oscillates sinusoidally at a frequency of 2.0 xx 10^(10) Hz and amplitude 48 V m^(–1) . (a) What is the wavelength of the wave? (b) What is the amplitude of the oscillating magnetic field? (c) Show that the average energy density of the E field equals the average energy density of the B field. [c = 3 xx 10^(8) m s^(-1).]

The positron is a fundamental particle with the same mass as that of the electron and with a charge equal to that of an electron but of opposite sign. When a positron and an electron collide, they may annihilate each other. The energy corresponding to their mass appears in two photons of equal energy. Find the wavelength of the radiation emitted. [Take : mass of electron = (0.5//c^(2))MeV and hc = 1.2 xx 10^(-12) MeV-m , where h is the Planck's constant and c is the velocity of light in air.

For a plane electromagnetic wave propagating along + X axis, electric field is E_(y)=48 sin{-10^(3)x + 10^(11)t} V/m. Find wavelength and frequency of above wave. Also write equation of corresponding magnetic field. (All values are in SI units).

Two independent harmonic oscillators of equal mass are oscillating about the origin with angular frequencies (omega_1) and (omega_2) and have total energies (E_1 and E_2), respectively. The variations of their momenta (p) with positions (x) are shown (s) is (are) a/b = n(square) and a/R= n, then the correct eqution...... (##JMA_CHMO_C10_022_Q01##)