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a A very large block of ice, initially at temperature T = 0 C is placed in a sealed insulated container full of Helium gas, initially at temperature 284 C and pressure of 2.47 atm. The volume of the Helium is 688 L, and is constant. Helium is a monatomic ideal gas. What is the mass of the liquid water when the system comes to equilibrium? In other words, how much ice melts? You can assume that for a "very large block of ice" there is still ice left at equilibrium. Assume no heat is lost to the surroundings. Give your answer in kg to at least three signicant digits to avoid rounding errors. Do not include units in your answer. f___V \" V | Two containers, A and B, hold 0.75 moles of the same diatomic ideal gas, both initially at a pressure of 1.1 atm and 343 K. ContainerA holds the gas at a constant volume and Container B holds the gas at a constant pressure. .Heat Q = 2,483 J is added to both containers. What is the difference in the nal temperatures of the two containers TA - TB. This is the difference in the nal temperatures between Container A (constant V) and Container B (constant P). Give your answer in Kelvin to at least 3 signicant digits. You are designing a process to store pressurized argon gas (a monatomic gas). You start with 3.0 moles of argon at a temperature of 286.2 K and 1 atm. You want the nal pressure of the gas to be 14.25 atm. There are two options to do this, compressing the gas at constant temperature or compressing the gas adiabaticaliy. Let Wt be the work ON the gas to compress it at constant temperature. Let We be the work ON the gas needed to compress it adiabatically. What is the ratio of these two works, Wt/Wa? Give you answer to at least three signicant digits. Of course, as this is a ratio it is a number without units