FUNDAMENTALS OF THERMODYNAMICS
10th Edition
ISBN: 9781119634928
Author: Borgnakke
Publisher: WILEY
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E.4) A cylinder and piston assembly contain water at 105°C and 85% quality, with a volume
of one liter. The system heats up, causing the piston to rise and encounter a linear spring. At
this point the volume is 1.5 liters, the piston diameter is 150 mm, and the spring constant is
100 N/mm. Heating continues, so the piston compresses the spring. Determine the pressure
in the cylinder when the temperature reaches 600°C.
Assume 20 lbm of an ideal gas with R=50 ft-lb/lb-R and k=1.18 are heated from 75 to 200F. What is the change in enthalpy
For the situations below briefly explain how you obtained the values and provide the numerical answer.
A) When 1 kg saturated water vapor is condensed to a saturated liquid water at 325 Kpa, what is the change in its volume?
B) What is the specific internal energy liquid water at 280 degree Celsius and 7500 Kpa?
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- Please state the assumptions and tables.arrow_forwardSteam at 100°C is added to ice at 0°C. (a) Find the amount of ice melted and the final temperature when the mass of steam is 14 g and the mass of ice is 52 g. g °C (b) Repeat with steam of mass 2.1 g and ice of mass 52 g. g Carrow_forwardi need the answer quicklyarrow_forward
- In the boiler of a steam engine the superheated steam is at 500 degrees Celsius and 20 mPa is created by adding an amount of heat to the pressured water. Erros up to 10% have come up. Find the ideal gas law. Could the error seen in testing be due to the ideal gas law assumption? - value from the ideal gas law - value from tables - %Error Which of the above values is the most accurate? Could the error seen in testing be due to the ideal gas law assumption?arrow_forwardQ4) An insulated cylinder fitted with a piston contains R-12 at 25°C with a quality of 90% and a volume of 45 L. The piston is allowed to move, and the R-12 expands until it exists as saturated vapor. During this process the R-12 does 7.0 kJ of work against the piston. Determine the final temperature, assuming the process is adiabatic. [-15°C]arrow_forwardAn ideal gas with a molecular man of 30 is contained in an inflexible tark. It is heated from 259.45 °C to 552.18°C. If the change in internal energy is found to be 185 kJ/kg, compute for the work in kJ/kg.arrow_forward
- Two kilograms of Methane gas underwent an isopiestic process from 200C to 300C. Find the change in internal energy, change in enthalpy, work done and heat transferred. Sketch the T-s and P-v diagrams.arrow_forwardSolve the following questions using Steam Table: 1. Determine T, h, s, u and v of saturated steam of 1.4Mpa except that it has a °SH of 100°C.2. Given: P = 2.47 Mpa and T = 384°C Find: harrow_forwardIN THERMODYNAMICS 2: Five kg of water vapor are contained at 150 kPa and 90 percent quality in a suitable enclosure. (a) Calculate the heat in kJ which must be added to produce a saturated vapor (b) What will the pressure be in MPa at the end of the heating process to produce a saturated vapor?arrow_forward
- For adiabatic process, pressure before and after the process are 4000000 N/m? and 2 bar respectively. The volume before and after the process are 4000 mm and 400 cm3 respectively. Then the adiabatic index isarrow_forwardI need solution within 30 Minutes, Please don't take more than that.arrow_forward1.) There are 3 kg/min of steam undergoing an isothermal process from 30 bar and 350 oC to 7 bar. (note 1bar = 100 kPaa). PLS DRAW ONLY THE P-V AND THE T-S DIAGRAM OF THESE PROBLEM PLSSarrow_forward
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