A certain freezing process requires that room temperature be lowered from `40^@ C` at the rate of `5^@C` every hour. What will be the room temprature 10 hours after the process begins ?

A certainn freezing process requires that room temperature be lowered from 40^(@)C at a rate of 5^(@)C at every hour. Find the room temperature 10 hours after the freezing process begins.

A balloon filled with helium gas having pressure 2 atm was kept at room temperature (of 27^(@) C). What will be the resulting temperature if it bursts? (Assume that change occurs reversibly) {:((1),-60^(@)C,(2),-45.65^(@)C),((3),-30.15^(@)C,(4),-10.5^(@)C):}

For a certain gaseous reaction rise of temperature from 25^(@)C to 35^(@)C doubles the rate of reaction. What is the value of activation energy :-

The count rate of a radioactive sample falls from 4.0xx10^6 s^(-1) to 1.0xx10^6 s^(-1) in 20 hours. What will be the count rate after 100 hours from beginning ?

Imagine a system, that can keep the room temperature within a narrow range between 20^@C to 25^@C . The system includes a heat engine operating with variable power P = 3KT, where K is a constant coefficient, depending upon the thermal insulation of the room, the area of the walls and the thickness of the walls. T is temperature of the room in temperature drops lower than 20^@C , the engine turns on, when the temperature increase over 25^@ C, the engine turns off, room looses energy at a rate of K(T - T_0), T_0 is the outdoor temperature. The heat capacity of the room is C. Given (T_0=10^@C, ln(3/2) =0.4 , ln(6/5)=0.18 , C/K =750 SI-unit) Suppose at t = 0, the engine turns off, after how much time interval, again, the engine will turn on

Imagine a system, that can keep the room temperature within a narrow range between 20^@C to 25^@C . The system includes a heat engine operating with variable power P = 3KT, where K is a constant coefficient, depending upon the thermal insulation of the room, the area of the walls and the thickness of the walls. T is temperature of the room in temperature drops lower than 20^@C , the engine turns on, when the temperature increase over 25^@ C, the engine turns off, room looses energy at a rate of K(T - T_0), T_0 is the outdoor temperature. The heat capacity of the room is C. Given (T_0=10^@C, ln(3/2) =0.4 , ln(6/5)=0.18 , C/K =750 SI-unit) Suppose at t = 0, the engine turns on, after how much time interval again, the engine will turn off

A body initially at 80^(@) C cools to 64^(@) C in 5 minutes and to 52^(@) C in 10 minutes. What will be the temprature after 15 minutes and what is the temperature of the surroundings ?

The melting point of naphthalene is 80^(@)C and the room temperature is 30^(@)C . A sample of liquid naphthalene at 100^(@)C is cooled down to the room temperature. Draw a temperature time graph to represent this cooling. In the graph, mark the region which corresponds to the freezing process.

The temperature and the dew point in an open room are 20^(@)C and 10^(@)C .if the room temperature drops to 15^(@)C ,what will be the new dew point?