Two spheres of the same material have raii 1m and 4 m, temperature 4000 K and 2000 K respectively. Then the ratio of energy radiated per second by the first sphere as compared to that by the second is

State Stefan’s Law. The radii of two spheres are 1 m and 4 m and temperatuiie 4000 K and 2000 K respectively. Calculate the ratio of the energy radiated per second.

Two black bodies A and B have equal surface areas and are maintained at temperatures 27° C and 177° C respectively. What will be the ratio of the thermal energy radiated per second by A to that by B ?

Three bodies of the same material and having masses m, m and 3m are at temperature 40^(@)C, 50^(@)C and 60^(@)C respectively. If the bodies are brought in the thermal contact, the final temperature will be

Two wires of the same length but of difference materials have diameter of 1mm and 3mm respectively.IF both of them are stretched by the same force,then the elongation of the first wire becomes thrice that of the second. Compare their Young's modull.

Two spheres of the same material have the same radius but one is hollow while the other is solid. Both spheres are heated to same temperature. Then

Two wires A and B of same material have radii in the ratio 2 : 1 and lengths in the ratio 4 : 1. The ratio of the normal forces required to produce the same change in the lengths of these two wires is

Two infinite geometric series starts from the same number. If the common ratios are 0.85 and 0.55 respectively, show that the sum of the first series is three times that of the second.