A black body at `227^@C` radiates heat at the rate of `7 cals//cm^-2s^-1`At a temperature of `727^@C`,the rate of heat radiated in the same units will be

A black body is at 727^@C It emits energy at a rate which is proportional to :

A spherical black body with a radius of 12 cm radiates 450 watt power at 500K.If the radius were halved and the temperature doubled , the power radiated in watt would be :

If the temperatures of a black body increases from 7^@ C to 287^@ C then, the rate of energy of radiation is

Does a body at 20^(@)C radiate in a room, where the room temperature is 30^(@)C ? If yes, why does its temperature not fall further?

A sample of air weighing 1.18 g occupies 1.0 xx 10^(3) cm^(3) when kept at 300 K and 1.0 xx 10^(5) pa. When 2.0 cal of heat is added to it constant volume, its temperature increases by 1^@C . Calculate the amount if heat needed to increases the temperature of air by 1^@C at constant pressure if the mechanical equivalent of heat si 4.2 xx 10^(-1) . Assume that air behaves as an ideal gas.

Type: C Calorimeter Heat lost by = Heat gained + Heat gained hot object = by calorimeter + by liquid Q = Q_(1) + Q_(2) Q = mcDeltaT Q = mL Note : C_(Copper) = 0.1cal//g^(@)C = = 0.1 kcal//kg^(@)C Final temperature becomes equal to 'T' for all substances A copper sphere of of 100g mass in heated to raise its temperature to 100^(@)C and is released in water of mass 195g and temperature 20^(@)C in a copper calorimeter . If the mass of calorimeter is 50g what will be the maximum temperature of water ?

A metal block of heat capacity 90J//.^(@)C placed in a room at 25^(@)C is heated electrically. The heater is switched off when the temperature reaches 35^(@)C . The temperature of the block rises at the rate of 2^(@)C//s just after the heater is switched on and falls at the rate of 0.2^(@)C//s just after the heater is switched off. Assume Newton's law of cooling to hold (a) Find the power of the heater. (b) Find the power radiated by the block just after the heater is switched off. (c ) Find the power radiated by the block when the temperature of the block is 30^(@)C . (d) Assuming that the power radiated at 30^(@)C respresents the average value in the heating process, find the time for which the heater was kept on.

A cubical block of mass 1.0kg and edge 5.0cm is heated to 227^(@)C . It is kept in an evacuated chamber maintained at 27^(@)C . Assming that the block emits radiation like a blackbody, find the rate at which the temperature of the block will decreases. Specific heat capacity of the material of the block is 400Jkg^(-1)K^(-1) .

Suppose that 1 L of water is heated for a certain time to rise its temperature for 2^@ C. If 2L of water is heated for the same time, how much of its temperature would rise?

Steam at 100^@ C is passed.into 20 g of water at 10^@C Whenwater acquires a temperature of 80^@C the mass of water present will be :[take specific heat of steam =1 cal g^-1^@C^-1 and latent of water =540 cal g^-1 ]