calculate the heat and work per kg of the isobaric process when it is carried out...

in the first part of two step process heat is allowed to flow out of an...

in the first part of two step process heat is allowed to flow out of an ideal gas at constant volume so that the presure drop from 2.45atm to 1.70atm the gast the expands at constant pressure from a volume of 5.45l to 7.85L where the tempetrture rekbei it original value . a draw a pv -disgram for this process b , calculate the total work done bu the gas process c does heat flow into or out of the...

Consider the following four-process cycle that is carried out on a system of monatomic ideal gas,...

Consider the following four-process cycle that is carried out on a system of monatomic ideal gas, starting from state 1 in which the pressure is 88.0 kPa and the volume is 3.00 liters. Process A is an isothermal process that triples the volume; process B is a constant volume process that returns the system to a pressure of 88.0 kPa; process C is an isothermal process that returns the system to a volume of 3.00 liters; and process D is...

Consider the following four-process cycle that is carried out on a system of monatomic ideal gas,...

Consider the following four-process cycle that is carried out on a system of monatomic ideal gas, starting from state 1 in which the pressure is 86.0 kPa and the volume is 2.00 liters. Process A is an isothermal process that triples the volume; process B is a constant volume process that returns the system to a pressure of 86.0 kPa; process C is an isothermal process that returns the system to a volume of 2.00 liters; and process D is...

3.0 moles of an ideal gas are subjected to the following processes. First the volume is...

3.0 moles of an ideal gas are subjected to the following processes. First the volume is tripled in an isobaric process. Then it undergoes an isothermal process to a pressure of 9.0 kPa. The volume is then cut in half in another isobaric process after being tripled. Finally, it returns to the original state in an isochoric process. (a) Draw a PV diagram of the cycle. Label each state (vertex) with a letter (A, B, …) and each transition with...

The system consists of reactants (10.5 g of butane gas and the stoichiometric amount of oxygen...

The system consists of reactants (10.5 g of butane gas and the stoichiometric amount of oxygen gas) placed in a diathermic cylinder sealed from the surroundings by a diathermic, freely moving, massless piston. The cylinder is placed in a huge water tank at 300.K. In the initial state, the system is in equilibrium with the surroundings at 300.K and 1.0 atm. As a result of the combustion between the reactants, the system reaches a final state that contains only carbon...

The creation of liquid oxygen starts with air being compressed and then sent through a heat...

The creation of liquid oxygen starts with air being compressed and then sent through a heat exchanger to be cooled to 10 oC. The stream enters a condenser where water is removed at 99.9% efficiency. The air stream continues to a set of filters further removing impurities in the air (CO2, etc.) with 99.8% efficiency. After leaving the filters, the stream enters a set of distillation columns where Argon, Nitrogen, and Oxygen are separated. For this problem, two distillation columns...

(d) In a closed industrial process 2 .5 kg of water at an initial temperature of...

(d) In a closed industrial process 2 .5 kg of water at an initial temperature of 15°C is continually stirred whilst being heated. If the net heat transferred to the system is 3 kJ and the final temperature of the water is 75°C, determine: i.The internal energy change of the water ii.The work transferred (stating the direction-in or out)of the mechanical stirrer. iii.The additional heat flow required for the same temperature increase if there were no work transfer. For parts...

1. A gas does 800 J of work to expand and push a piston. If the...

1. A gas does 800 J of work to expand and push a piston. If the total energy of the gas does not change, what is the heat for this process? Take the bold work to be the system. 2. Sodium dimer (Na2) has a vibrational constant of 159.13 cm-1. Calculate the vibrational partition function of Na2 to three significant figures at 300 K. The degeneracy is 1. 3. Calculate the work done (in J) when the volume of an...

A simple (non-cyclic) heat engine. Consider a cylinder containing an ideal gas under a piston, as...

A simple (non-cyclic) heat engine. Consider a cylinder containing an ideal gas under a piston, as shown in Figure below. After a weight m1 is removed from the piston, the gas expands, lifts the remaining weight m2, and the piston eventually settles at a new position h2. A. Assuming that the above process is carried out in a room whose temperature is maintained constant so that the initial and the final temperature of the gas is exactly the same, what...

Post lab question reguarding bomb calorimetry: Heat capacity for calorimeter: 10403.64 J/◦C Delta H TTCC: -6864.20...

Post lab question reguarding bomb calorimetry: Heat capacity for calorimeter: 10403.64 J/◦C Delta H TTCC: -6864.20 kJ/mol Resonance energy benzene: 423.01 kJ/mol ΔE = -7096.54kJ/mol 1. How does the bomb get sealed when it is charged with oxygen gas? 2. Why is 1 mL of water added to the bomb before the oxygen gas is added? Would one drop (0.05 mL) of water be satisfactory? 3. Is the mechanical energy of the stirrer included in the heat capacity of the...