0.040g of He is kept in a closed container initially at `100.0^(@)C.`The container is now heated. Neglecting the expansion of the container, Calculate the temperature at which the inernal energy is increased by 12J.

An open flask at 25^@C contains air. Calculate the temperature at which one fifth of air measured at 25^@C escapes.

200 g of hot water at 80^@ C is added to 300 g of cold water at 10^@ C. Neglecting the heat taken by the container, calculate the final temperature of the mixture of water. Specific heat capacity of water = 4200 J kg^(-1)K^(-1)

A bucket contains 8 kg of water at 25^@ C. 2 kg of water at 80^@ C is poured into it. Neglecting the heat energy absorbed by the bucket, calculate the final temperature of water.

A gas is contained in a vessel fitted with a movable piston. The container is placed on a stove. A total of 100 cal of heat is given to the gas and the gas does 40 J of work in the expansion resulting from heating. Calculate the increase in internal energy in the process.

An ice cube of mass 0.1 kg at 0^@C is placed in an isolated container which is at 227^@C . The specific heat s of the container varies with temperature T according to the empirical relation s=A+BT , where A= 100 cal//kgK and B = 2xx (10^-2) cal//kg . If the final temperature of the container is 27^@C , determine the mass of the container. (Latent heat of fusion for water = 8xx (10^4) cal//kg , specific heat of water =10^3 cal//kg-K ).

In a closed insulated container, a liquid is stirred with a paddle to increase the temperature. Which of the following is true?

Consider a cylindrical container of cross-section area A length h and having coefficient of linear expansion alpha_(c) . The container is filled by liquid of real expansion coefficient gamma_(L) up to height h_(1) . When temperature of the system is increased by Deltatheta then (a). Find out the height, area and volume of cylindrical container and new volume of liquid. (b). Find the height of liquid level when expansion of container is neglected. (c). Find the relation between gamma_(L) and alpha_(c) for which volume of container above the liquid level (i) increases (ii). decreases (iii). remains constant. (d). On the surface of a cylindrical container a scale is attached for the measurement of level of liquid of liquid filled inside it. If we increase the temperature of the temperature of the system by Deltatheta , then (i). Find height of liquid level as shown by the scale on the vessel. Neglect expansion of liquid. (ii). Find the height of liquid level as shown by the scale on the vessel. Neglect expansion of container.

A closed box contains an ideal gas if temperature of gas increased which

Two idential container joined by a small pipe initially contain the same gas at pressure p_(0) and absolute temperature T_(0) . One container is now maintained at the same temperature while the other is heated to 2T_(0) . The common pressure of the gas

Two identical containers joned by a small pipe initially contain the same gas at pressue p_(o) and abosolute temperature T_(o^.) One container is now mantained at the same temperature while the other is heated to 2T_(0^.) The commmon pressure of the gases will be