`lamda_a` and `lamda_m` are the wavelengths of light in air and medium respectively. If `i_p` is the polarising angle, the correct relation between `lamda_(a), lamda_m ` and `i_p` is

v_m and v_d are the velocities of sound in humid air and dry air respectively. The relation between them is

Two perfect black bodies A_1 and A_2 made out of same material have diameters 2 cm and 16 cm respectively. lamda_("max")^' and lamda_("max")^'' are the wavelengths corresponding to their maximum radiation of energy at a common temperature lamda_("max")^' and lamda_("max")^'' are related as

The critical angle between a given transparent medium and air is denoted by c. A ray of light in air enters this transparent medium at an angle of incidence equal to polarising angle theta_P . Deduce a relation for the angle of refraction in terms of c.

If A is angle of prism, delta is angle of deviation, i is angle of incidence and e angle of emergence,then what is the correct relation between them ?

The energies E_1 and E_2 of two radiations are 25 eV and 50 eV respectively. The relation between their wavelength i.e., lambda_1 and lambda_2 will be__.

C_(p) nad C_(v) are specific heats at constant pressure and constant volume respectively. It is observed that C_(p)-C_(v)=a for hydrogen gas C_(p)-C_(v)=b for niotrogen gas The correct relation between a and b is

The relation between the polarising angle (i_(p)) and the refractive index (n) of the medium is given by

Light enters from air into a medium of R.I. 1.5. What is the percentage change in its wavelength?

Kepler's third law states that square of period revolution (T) of a planet around the sun is proportional to third power of average distance i between sun and planet i.e. T^(2)=Kr^(3) here K is constant if the mass of sun and planet are M and m respectively then as per Newton's law of gravitational the force of alteaction between them is F=(GMm)/(r^(2)) , here G is gravitational constant. The relation between G and K is described as

The angle between the lines given by the equation lamday^(2)+(1-lamda^(2))xy-lamda x^(2)=0 is