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A: Given:- The initial volume (V1)= 4.00 m3 The final volume (V2)= 3.00 m3 The temperature of the gas…
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A: Consider the provided equation of the isothermal curve. Further, rearrange as:
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- Given: 500 grams of air at STP. (STP or Standard Temperature Pressure; where in T = 0°C, Pabs = 1 atm). Determine the following a. Volume of the air in cubic meters b. If 20 kJ of heat is added at constant pressure determine the final temperature in CA monatomic ideal gas undergoes an isothermal expansion at 300 K, as the volume increased from 0.020 to [2*v1] m³.The final pressure is 120.61kPa. The ideal gas constant is R = 8.314 J/mol · K. %3D What is the heat transfer Q to the gas in kilojoules? Please enter your numerical answer with two decimal places. (for example for 2090 J, enter 2.09 )ft-lb A certain ideal has a constant gas R= 38.9 Ib-R with k= 1·4. Find the specific heat at constant volume R. if Cv can be computed by 78 t(k) Also, compute BTU for the specific heat at constant pressure.
- 1.7 Ideal gas response functions Find the thermal expansion coefficient and the isothermal compressibility for an ideal gas and show that in this case Cp - Cy = - a² can be reduced to Cp – Cy = Nkg for the molar specific heats. TV КтWhat would be the volume of 3.90 moles of an ideal gas, at STP? What is the pressure of this gas, if the temperature was increased from 0 degC to 56.9 degC as it stays in a constant volume container?Q1: 0.127 m³/s of water enters a turbine at 1.2 MPa, and 400 C. The water exits as saturated vapor at 75 kPa. The rate of heat loss from the water is 40 kW. Calculate the power, in kW, produced by the turbine.
- Answer the problem. For helium, R=2.0769 and Cp=5.1926 KJ/kg-K. Three kg of helium operates cycle where the processes are constant volume (1-2): constant pressure (2-3): and constant temperature (3-1). Given that P1=100 kPa T1=300 degree Kelvin, and v1/v3=5, determine the heat added in the cycle. a. 22.316kJ b. 14.225kJ c. 8.405kJ d. 36.708kJDensity is a block unit block, if the size depends on The density is inevitably dependent on them The amount of change in density (pA) resulting from TA temperature change Given the relationship (p=-BpATA) where B is the expansion coefficient Vegetable. Explain the meaning of negative reference? TUe A:0r * Il. pluls ► exam 1.pdf Q1// Define the following First law of thermodynamics, adiabatic process, Boyle's law, Reversibility, and Pressure. Q2// Ten kg of oxygen are heated from 350 to 500 K at constant pressure. Calculate the change of enthalpy, change internal energy, heat transfer and work done. Take Cp-0.909, Cv=0.649 Q3// In a nozzle air at 700°C and twice atmospheric pressure enters with 50 m/s velocity, and leaves at a temperature of 40°C. Determine velocity of air at exit. Take Cp = 1.005 kJ/kg.K for air.
- The temperature of an ideal gas is raised from 298 K to 402 K in a process that increases the heat content of the gas by 1000 J. What is the = -R for the gas, and these are constant. Hint: It will be 2 work performed on the system by this process? Assume that c 'y helpful to evaluate AU for this process. 3 =-R and C RWhat is the amount of heat (in Joules) required to increase the temperature of 3.0 moles of an ideal monatomic gas from 80oC to 100oC at constant volume in terms of R, where R is the gas constant?5 mole of an ideal vibrating diatomic gas. What is the heat capacity at constant volume in J/K?