Concept explainers
Determine the internal energy change Δu of hydrogen, in kJ/kg, as it is heated from 200 to 800 K, using (a) the empirical specific heat equation as a function of temperature (Table A–2c), (b) the cv value at the average temperature (Table A–2b), and (c) the cv value at room temperature (Table A–2a)
(a)
The empirical specific heat equation as a function of temperature.
Answer to Problem 54P
The empirical specific heat equation as a function of temperature is
Explanation of Solution
From Appendix Table A-2c “Ideal-gas specific heats of various common gases”.
Write the expression for the empirical relation between
Here, the universal gas constant is
Write the expression for the change in internal energy.
Substitute
Write the expression for internal energy of empirical specific heat equation.
Here, the molar mass is
Conclusion:
Substitute
Substitute
Thus, the empirical specific heat equation as a function of temperature is
(b)
The
Answer to Problem 54P
The
Explanation of Solution
Write the expression for internal energy of
Determine the average temperature for the
From Table A-2b, write the value of ideal gas specific heat of various gases at various temperatures at 500 K average temperature.
Conclusion:
Substitute
Thus, the
(c)
The
Answer to Problem 54P
The
Explanation of Solution
Write the expression for internal energy of
Determine the room temperature for the
From Table A-2b, write the value of ideal gas specific heat of various gases at various temperatures at 300 K room temperature.
Conclusion:
Substitute
Thus, the
Want to see more full solutions like this?
Chapter 4 Solutions
Thermodynamics: An Engineering Approach
- Determine the internal energy change for carbon monoxide, in kJ/kg, as it is heated from 312° K to 1456° K, using the empirical specific heat equation as function of temperaturearrow_forwardAccording to newton’s law of cooling, the rate at which a substance cools in air is directly proportional to the difference between the temperatures of the substance and that of air. if the temperature of the air is 30°f and the substance cools from 100° to 70°f in 15 minutes, how long will it take to cool 80°f to 35°f?arrow_forwardCould you please tell me whether 717.5 J is correct Answer or not (Don't copy ,Incase if you are unsure just skip it . I am confused with value ∆T ) Question 1: Consider a piston–cylinder device that contains 0.5 kg air. Now, heat is transferred to the air at constant pressure and the air temperature increases by 5°C. Determine the expansion work done during this process.arrow_forward
- Heat transferarrow_forwardA copper cylinder (c=390 J/kg K) with a mass of 75 g is placed in a furnace at a temperature of 312 °C (585 K), until it reaches thermal equilibrium. It is then quickly dropped into an insulated container containing 220 mL of water (c=4190 J/kg K). The heat capacity of the container is 190 J/kg K. Initially, the water and the container have a temperature of 12°C (285 K). For the experiment determine the following: a) The complete mathematical equation that models the behavior of the system. b) Indicate the energy transfer mechanisms that take place in the system. c)The laws of thermodynamics that delimit the behavior of the system. d)Calculate the final temperature of the system at equilibrium.arrow_forward1.5 kg of gas at 20°C is contained in a cylinder and heated to 75°C while the volume remains constant. Calculate the heat energy supplied if c, = 700 J/kgK.arrow_forward
- solve this thermodyanmics question ( physics )arrow_forwardIt takes 15 minutes to warm up from 10 C to 20 C in a room whose temperature is 30 C. Assuming Newton's law of cooling, how long would it takes to warm up from 10 C to 25 C?arrow_forward6-Five kg of steam at pressure of 4.9 bar is produced from water at 20C. Determine the amount of heat supplied if the steam is 0.9 dry. (12263KJ)arrow_forward
- A 6-pack canned drink is to be cooled from 25°C to 3°C. The mass of each canned drink is 0.355 kg. The drinks can be treated as water, and the energy stored in the aluminium can itself is negligible. Solve for the amount of heat transfer from the 6 canned drinks.arrow_forwardA Styrofoam coffee cup contains 125 g of hot coffee at 95.0 oC. A 25.0-g ice cube at -20.0 oC is dropped into the hot coffee. After the ice melts and thermal equilibrium is reached, the resulting liquid has a temperature of 65.0 oC. The specific heat capacity of ice is 1.99 J g-1 oC-1 and that of water is 4.184 J g-1 oC-1. The heat capacity of the coffee cup is 15.0 J oC-1. Calculate the molar heat of fusion for water. Assume the coffee is essentially pure water (FW 18.015) and that no heat enters or escapes from the system.arrow_forwardA 10-g ice cube at -10°C is dropped into 40 g of water at 30°C. After enough time has passed to allow the ice cube and water to come into thermal equilibrium, what is the temperature of the water?arrow_forward
- Elements Of ElectromagneticsMechanical EngineeringISBN:9780190698614Author:Sadiku, Matthew N. O.Publisher:Oxford University PressMechanics of Materials (10th Edition)Mechanical EngineeringISBN:9780134319650Author:Russell C. HibbelerPublisher:PEARSONThermodynamics: An Engineering ApproachMechanical EngineeringISBN:9781259822674Author:Yunus A. Cengel Dr., Michael A. BolesPublisher:McGraw-Hill Education
- Control Systems EngineeringMechanical EngineeringISBN:9781118170519Author:Norman S. NisePublisher:WILEYMechanics of Materials (MindTap Course List)Mechanical EngineeringISBN:9781337093347Author:Barry J. Goodno, James M. GerePublisher:Cengage LearningEngineering Mechanics: StaticsMechanical EngineeringISBN:9781118807330Author:James L. Meriam, L. G. Kraige, J. N. BoltonPublisher:WILEY