A body cools in a surrounding of constant temperature `30^@C` Its heat capacity is `2 J//^@C`. Initial temeprature of cooling is valid. The body cools to `38^@C` in 10 min
The temperature of the body In `.^@C` denoted by `theta`. The veriation of `theta` versus time t is best denoted as

A body cools in a surrounding of constant temperature 30^@C Its heat capacity is 2 J//^(@)C . Initial temeprature of cooling is valid. The body cools to 38^@C in 10 min In further 10 min it will cools from 38^@C to _____

A body cools in a surrounding of constant temperature 30^@C Its heat capacity is 2 J//^(@)C . Initial temeprature of cooling is valid. The body cools to 38^@C in 10 min When the body temperature has reached 38^@C , it is heated again so that it reches 40^@C in 10 min. The heat required from a heater by the body 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 :

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. In further 10 minutes it will cool from 36^(@)C to :

A hot body at 70^@C cools to 25^@ C in 15 min . Find its temperature after the next 10 mins. The temperature of the surroundings is 10^@C .

A body cools from 50^@C " to " 40^@C in 5 min. If the temperature of the surrounding is 20^@C , the temperature of the body after the next 5 min would be

A body at 50^(@)C cools in a surroundings maintained at 30^(@)C The temperature at which the rate of cooling is half that of the beginning is .

A body cools at the rate of 3^(@)C// min when its temperature is 50^(@)C . If the temperature of surroundings is 25^(@)C then the rate of cooling of the body at 40^(@)C is