The plots of intensity versus wavelength for three black bodies at temperatures `T_1,T_2` and `T_3` respectively are as shown. Their temperature are such that

The graph between surface tension and temperature T is

Three liquids with masses m_1, m_2, m_3 are thoroughly mixed. If their specific heats are c_1, c_2, c_3 and their temperatures T_1, T_2, T_3 respectively, then the temperature of the mixture is

The efficiency of a Carnot engine which operates between the two temperatures T_1=500K and T_2=300K is

A black body radiates heat at temperatures T_(1) and T_(2) (T_(2) gt T_(1) the frequency corresponding to maxium energy is

Define the following terms. Critical Temperature (T_c)

What is the peak wavelength of radiation emitted by a black body at temperature 40^@C (b = 2.898 xx 10^-3 mK )

On observing light from three different stars P , Q and R , it was found that intensity of violet colour is maximum in the spectrum of P , the intensity of green colour is maximum in the spectrum of R and the intensity of red colour is maximum in the spectrum of Q . if T_(P) , T_(Q) and T_(R) are respective absolute temperature of P , Q and R . then it can be concluded from the above observation that

Two spherical black bodies of radii R_(1) and R_(2) and with surface temperature T_(1) and T_(2) respectively radiate the same power. R_(1)//R_(2) must be equal to

A black body emits radiations of maximum intensity at a wavelength of 5000 A, when the temperature of the body is 1227° C. If the temperature of the body is increased by 2227 °C, the maximum intensity of emitted radiation would be observed at

Consider two hot bodies B_(1) and B_(2) which have temperature 100^(@)"C" and 80^(@)"C" respectively at t = 0. The temperature of surroundings is 40^(@)" C" . The ratio of the respective rates of cooling R_(1) and R_(2) of these two bodies at t = 0 will be