DSpace Collection: Lecture notes, synopsizes, manuals etc. by the department staffLecture notes, synopsizes, manuals etc. by the department staffhttps://er.nau.edu.ua/handle/NAU/379362024-03-29T06:21:17Z2024-03-29T06:21:17ZAircraft engines. Lecture notes (first preliminary edition). Chapter 10. Heat capacitiesGoncharenko, Andriy Viktorovichhttps://er.nau.edu.ua/handle/NAU/379472021-06-16T10:27:55Z2019-03-01T00:00:00ZTitle: Aircraft engines. Lecture notes (first preliminary edition). Chapter 10. Heat capacities
Authors: Goncharenko, Andriy Viktorovich
Abstract: The amount of heat which is necessary to be taken in into a body or withdrawn from it in order to change its temperature in 1 °C is called heat capacity. Heat capacity is calculated by the formula.
Description: Thus, mass specific heat – this is the heat capacity of a unit mass of a substance (1 kg).2019-03-01T00:00:00ZAircraft engines. Lecture notes (first preliminary edition). Chapter 9. Calculus methodsGoncharenko, Andriy Viktorovichhttps://er.nau.edu.ua/handle/NAU/379462021-08-05T08:21:38Z2019-03-01T00:00:00ZTitle: Aircraft engines. Lecture notes (first preliminary edition). Chapter 9. Calculus methods
Authors: Goncharenko, Andriy Viktorovich
Abstract: Application of calculus to thermodynamics. In mathematics they are functions by Pfaff of two variable values.
Description: Such functions in mathematics are called functions of point, and in thermodynamics – functions of state. The functions by Pfaff of the second kind are called functions of line in mathematics, and in thermodynamics – functions of process.2019-03-01T00:00:00ZAircraft engines. Lecture notes (first preliminary edition). Chapter 8. Law of energy conservation in thermodynamicsGoncharenko, Andriy Viktorovichhttps://er.nau.edu.ua/handle/NAU/379452021-06-16T11:16:40Z2019-03-01T00:00:00ZTitle: Aircraft engines. Lecture notes (first preliminary edition). Chapter 8. Law of energy conservation in thermodynamics
Authors: Goncharenko, Andriy Viktorovich
Abstract: The firs law of thermodynamics (first beginning) in the general view represents by itself the law of conservation and conversion of energy.
Description: The relation of (2.17) represents by itself the mathematical notation of the equation of the firs law of thermodynamics. Following this equation, the heat taken in by the body is spent upon the change in internal energy and for doing the work.2019-03-01T00:00:00ZAircraft engines. Lecture notes (first preliminary edition). Chapter 7. Heat and work considerationGoncharenko, Andriy Viktorovichhttps://er.nau.edu.ua/handle/NAU/379442021-06-16T11:14:09Z2019-03-01T00:00:00ZTitle: Aircraft engines. Lecture notes (first preliminary edition). Chapter 7. Heat and work consideration
Authors: Goncharenko, Andriy Viktorovich
Abstract: Bodies in the thermodynamic process exchange energy between themselves. The energy of some bodies increases, the others, on the contrary, decreases instead. The transfer (transition, transmission) of the energy can be realised by two ways [113, pp. 23-24].
Description: The fist way of the energy transfer (transition, transmission) represents by itself the transition of the energy in the form of heat. The amount (quantity) of the energy transmitted in this way is called the amount (quantity) of heat. The second way of the energy transfer (transition, transmission) is called the transition of the energy in the form of work, and the amount (quantity) of the energy transmitted in this way is called the work. The energy transfer (transition, transmission) in this case realises by the displacement of either the entire (whole) body or its parts in space.2019-03-01T00:00:00Z