Two flasks of equal volumes have been joined by a narrow tube of negligible volume. Initially both the flasks are 300 K and totally 9 mole of gas is present. One of the flasks is then placed in a thermostat at 600K. How many moles of gas is present in hot bulb.

Two flasks of equal volumes have been joined by a narrow tube of negligible volume. Initially, both the flasks are 300K containing 0.6 mole of gas is present. One of the flasks is then placed in a thermostat at 600K. How many moles of gas are present in hot bulb?

How many moles of ideal gas are present in a flask of volume 3dm^(3) at 25^(@)C and 770 mm. Hg ?

Two bulbs of 100 c.c and 200 c.c capacity, contain the same gas at same temperature and pressure are connected by a capillary tube of negligible volume. Initially both were at 0^(@)C . Now the temperature of the bigger bulb is raised to 100^(@)C and that of the smaller bulb being kept at 0^(@)C . If the initial pressure was 76 cm of mercury, what is the final pressure ?

Two bulbs of 100 c.c and 200 c.c capacity, contain the same gas at same temperature and pressure are connected by a capillary tube of negligible volume. Initially both were at 0^(@)C . Now the temperature of the bigger bulb is raised to 100°C and that of the smaller bulb being kept at 0^(@) C . If the initial pressure was 76 cm of mercury, what is the final pressure in cm of Hg

Two containers, each of volume V_0 , joined by a small pipe initially contain the same gas at pressure P_0 and at absolute temperature T_0 . One container is now maintained at the same temperature while the other is heated to 2 T_0 . If the number of moles of gas in the container at temperature 2T_0 is (nP_0 V_0)/( 3 RT_0) then 'n' is

A flask of 1L having NH_(3)(g) at 2.0atm and 200K is connected with another flask of vol 800ml having HCl(g) at 8atm & 200K through tube of negligible volume. The two gases reacts to form NH_(4)Cl(s) with evolution of 43 KJ/mol heat. If heat capacity of at constant volume is 20J/K/mol and neglecting heat capacity of flask and solid, volume of solid formed and its pressure (R = 0.08). The final pressure in the flask is

Two rigid adiabatic vessels A and B which initially, contain two gases at different temperature are connected by pipe line with value of negligible volume. The vessel 'A' contain 2 moles Ne gas (C_(p.m) = (5)/(2)R) at 300K, vessel 'B' contain 3 moles of SO_(2) gas (C_(p.m) = 4R) at 400K. The volume of A & B vessel is 4 and 6 litre respectively. The final total pressure (in atm) when value is opened and 12 Kcal heat supplied through it to vessels. [Use: R= 2 cal/mol, K and R= 0.08L. atm/mol K as per desire]