Methane is heated in a rigid container from 80 kPa and 20°C to 300°C. Determine the...

A closed, rigid tank is filled with a gas modeled as an ideal gas, initially at...

A closed, rigid tank is filled with a gas modeled as an ideal gas, initially at 80°C and a gage pressure of 300 kPa. The gas is heated, and the gage pressure at the final state is 500 kPa. The local atmospheric pressure is 1 atm. Determine the final temperature, in °C.

A gas contained in a closed rigid container is heated from initial temperature and pressure of...

A gas contained in a closed rigid container is heated from initial temperature and pressure of 270C and 2 bar to a final pressure of 12 bar. Calculate final temperature, Work done, Heat transfer and change in Internal Energy. (Take Cv as 0.873 kJ/kg K. and Mass of the gas = 1kg)

An isentropic compressor that takes in air from the atmosphere at 100 kPa and 300 K...

An isentropic compressor that takes in air from the atmosphere at 100 kPa and 300 K compresses it to 1 MPa. The compressor feeds into a rigid tank that is initially filled with 5 kg of air at a pressure of 500 kPa and a temperature of 500 K. Once the mass in the tank reaches 8 kg, the compressor will stop to prevent the tank from rupturing, which will occur if the pressure exceeds 1000 kPa. a) Determine the...

A rigid closed tank is full of oxygen at 120 kPa and 25 C. The mass...

A rigid closed tank is full of oxygen at 120 kPa and 25 C. The mass of oxygen in the tank is 1.8 kg. A stirring device introduces 150 kJ of work and there is heat loss to the surroundings in the amount of 45 kJ. Find the final temperature in Celsius and pressure in kPa. Assume specific heats constant at room temperature (300 K).

A rigid closed tank is full of oxygen at 120 kPa and 25 C. The mass...

A rigid closed tank is full of oxygen at 120 kPa and 25 C. The mass of oxygen in the tank is 1.8 kg. A stirring device introduces 150 kJ of work and there is heat loss to the surroundings in the amount of 45 kJ. Find the final temperature in Celsius and pressure in kPa. Assume specific heats constant at room temperature (300 K).

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰...

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰ C at a pressure of 80 kPa. What is the pressure of the gas if its temperature increases to 40⁰ C? Name the thermal process that brought about the temperature increase of the gas.

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰...

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰ C at a pressure of 80 kPa. What is the pressure of the gas if its temperature increases to 40⁰ C? Name the thermal process that brought about the temperature increase of the gas.

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰...

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰ C at a pressure of 80 kPa. What is the pressure of the gas if its temperature increases to 40⁰ C? Name the thermal process that brought about the temperature increase of the gas.

Air is contained in a rigid, well-insulated container of volume 3 m3. The air undergoes a...

Air is contained in a rigid, well-insulated container of volume 3 m3. The air undergoes a process from an initial state with a pressure of 200 kPa and temperature of 300 K. During the process, the air receives 720 kJ of work from a paddle wheel. Model the air as an ideal gas with constant specific heats. Evaluate the specific heats at 300 K. Neglect changes in kinetic energy and potential energy. Determine the mass of the air in kg,...

A rigid container of volume 0.2 m3 contains 5 kg of water at 20 ◦C. The...

A rigid container of volume 0.2 m3 contains 5 kg of water at 20 ◦C. The maximum allowable pressure of the container is set at 10 MPa. The system is now connected to a heat source, which transfers heat at a rate of 1000 W to the container. How long will the container survive?