A pan filled with hot food cools from `50^(@)C` to `48^(@)C` in 5 s when the room temperature is at `30^(@)C`. How long will it take to cool from `40^(@)C` to `39^(@)C` ?

A pan filled with hot food cools from 94^(@)C to 86^(@)C in 2 minutes when th room temperature is at 20^(@)C . How long will it take to cook from 71^(@)C to 69^(@)C ?

A pan filled with hot food cools from 94^(@) C " to " 86^(@) C in 2 minutes when the room temperature is at 20^(@) C . How long will it take to cool from 71^(@) C " to " 69^(@) C ?

A cup of tea cools from 80^(@)C to 60^(@)C in one minute. The ambient temperature is 30^(@)C . In cooling from 60^(@)C to 50^(@)C it will take

A body cools from 80^(@)C to 50^(@)C in 5 minutes Calculate the time it takes to cool from 60^(@)C to 30^(@)C . The temperature of the surroundings is 20^(@)C .

A system S receives heat continuously from an electric heater of power 10 W . The temperature of S becomes constant at 50^(@)C when the surrounding temperature is 20^(@)C . After the heater is switched off, S cools from 35.1^(@)C to 34.9^(@)C in 1 minute . the heat capacity of S is

A hot liquid in beaker at 80^(@)C cools down to 70^(@)C in 2 minutes in an atmosphere of 30^(@)C temperature, then time taken to cool it down from 60^(@)C to 50^(@)C is . . . . . . ..

A body cools in a surrounding of constant temperature 30^(@)C . Its heat capacity is 2J//^(@)C . Initial temperature of the body is 40^(@)C . Assume Newton's law of cooling is valid. The body cools to 36^(@)C in 10 minutes. When the body temperature has reached 36^(@)C . it is heated again so that it reaches to 40^(@)C in 10 minutes. Assume that the rate of loss of heat at 38^(@)C is the average rate of loss for the given time . The total heat required from a heater by the body is :

Q cal of heat is required to raise the temperature of 1 mole of a monatomic gas from 20^(@)C to 30^(@)C at constant pressure. The amount of heat required to raise the temperature of 1 mole of diatomic gas form 20^(@)C to 25^(@)C

A body cools from 80 ^(@) C " to " 50 ^(@) C in 5 minutes. Calculate the time it takes to cool from 60 ^(@) C " to " 30^(@) C . The temperature of the surroundings is 20 ^(@) C .

The specific heat capacity of a metal at low temperature (T) is given as C_(p)(kJK^(-1) kg^(-1)) =32((T)/(400))^(3) A 100 gram vessel of this metal is to be cooled from 20^(@)K to 4^(@)K by a special refrigerator operating at room temperaturte (27^(@)C) . The amount of work required to cool the vessel is