A fire breaks out and increases the Kelvin temperature of a cylinder of compressed gas by...

A cylinder contains an ideal gas at the temperature of 300 K and is closed by...

A cylinder contains an ideal gas at the temperature of 300 K and is closed by a movable piston. The gas, which is initially at a pressure of 3 atm occupying a volume of 30 L, expands isothermally to a volume of 80 L. The gas is then compressed isobarically, returning to its initial volume of 30 L. Calculate the work done by gas: a) in isothermal expansion; b) in isobaric compression, c) in the whole process; and d) Calculate...

An ideal gas is compressed isothermally in a closed and frictionless piston/cylinder apparatus to 2.5 times...

An ideal gas is compressed isothermally in a closed and frictionless piston/cylinder apparatus to 2.5 times its initial pressure, consuming in the process 2.2 kJ mol−1 of work. Calculate the temperature of the gas inside the cylinder.

A cylinder with a moveable piston holds 1.20 mol of argon at a constant temperature of...

A cylinder with a moveable piston holds 1.20 mol of argon at a constant temperature of 295 K. As the gas is compressed isothermally, its pressure increases from 101 kPa to 145 kPa. (a) Find the final volume of the gas. (answer in: m3) (b) Find the work done by the gas. (answer in: kJ) (c) Find the heat added to the gas. (.. kJ)

A piston-cylinder assembly containing 3 kg of an ideal gas undergoes a constant pressure process from...

A piston-cylinder assembly containing 3 kg of an ideal gas undergoes a constant pressure process from an initial volume of 48 m3 to a final volume of 30 m3 . During the process, the piston supplies 1.2 MJ of work to the gas. The gas has a constant specific heat at constant volume of 1.80 kJ/(kg∙K) and a specific gas constant of 1.48 kJ/(kg∙K). Neglect potential and kinetic energy changes. a. Determine the initial specific volume of the gas in...

A cylinder with a moveable piston holds 3.60 mol of argon at a constant temperature of...

A cylinder with a moveable piston holds 3.60 mol of argon at a constant temperature of 295 K. As the gas is compressed isothermally, its pressure increases from 101 kPa to 151 kPa. (a) Find the final volume of the gas.

An ideal gas is brought through an isothermal compression process. The 4.00 mol of gas goes...

An ideal gas is brought through an isothermal compression process. The 4.00 mol of gas goes from an initial volume of 259.4×10−6 m3 to a final volume of 110.6×10−6 m3 . If 8070 J is released by the gas during this process, what are the temperature ? and the final pressure ?? of the gas? ?= K ?f= Pa

A quantity of gas in a piston cylinder is at room temperature (20°C) and is heated...

A quantity of gas in a piston cylinder is at room temperature (20°C) and is heated in an isobaric(constant pressure)process. What will be the temperature of the gas in degrees Celsius when it has expanded to a volume of 0.600m3?

A vessel with a movable piston contains 1.90 mol of an ideal gas with initial pressure...

A vessel with a movable piston contains 1.90 mol of an ideal gas with initial pressure Pi = 2.03 ✕ 105 Pa, initial volume Vi = 1.00 ✕ 10−2 m3, and initial temperature Ti = 128 K. (a) What is the work done on the gas during a constant-pressure compression, after which the final volume of the gas is 2.50 L? J (b) What is the work done on the gas during an isothermal compression, after which the final pressure...

An insulated cylinder is fitted with an airtight piston that is free to slide up and...

An insulated cylinder is fitted with an airtight piston that is free to slide up and down and is connected to a rod, as shown in the figure. Contained within the cylinder is an ideal gas initially at a pressure of 120 kPa and temperature of 293 K. Suddenly the piston is forced downward creating an additional 200 kPa of pressure on the gas and as a result the cylinder volume decreases to one-half of its original volume. (a) What...

An insulated cylinder is fitted with an airtight piston that is free to slide up and...

An insulated cylinder is fitted with an airtight piston that is free to slide up and down and is connected to a rod. Contained within the cylinder is an ideal gas initially at a pressure of 120 kPa and temperature of 293 K. Suddenly the piston is forced downward creating an additional 200 kPa of pressure on the gas and as a result the cylinder volume decreases to one-half of its original volume. (a) What is the final temperature of...