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Page 1 Thermodynamics The First Law of Thermodynamics Heat and Work. First Law of Thermodynamics Heat and Work on Quasi-Static Processes for a Gas. Page 2 Thermodynamics The First Law of Thermodynamics Heat and Work. First Law of Thermodynamics Heat and Work on Quasi-Static Processes for a Gas. The First Law of Thermodynamics System Surroundings The system can exchange mass and energy through the boundary with the environment. An example of “closed system” - no mass flow- is the gas confined in a cylinder. The boundary –in this case real wall- is made by the cylinder and the piston walls. Energy exists in many forms, such as mechanical energy, heat, light, chemical energy, and electrical energy. Energy is the ability to bring about change or to do work. Thermodynamics is the study of energy. The boundary of the system is arbitrarily chosen Page 3 Thermodynamics The First Law of Thermodynamics Heat and Work. First Law of Thermodynamics Heat and Work on Quasi-Static Processes for a Gas. The First Law of Thermodynamics System Surroundings The system can exchange mass and energy through the boundary with the environment. An example of “closed system” - no mass flow- is the gas confined in a cylinder. The boundary –in this case real wall- is made by the cylinder and the piston walls. Energy exists in many forms, such as mechanical energy, heat, light, chemical energy, and electrical energy. Energy is the ability to bring about change or to do work. Thermodynamics is the study of energy. The boundary of the system is arbitrarily chosen The First Law of Thermodynamics First Law of Thermodynamics ? Conservation of Energy: Energy can be changed from one form to another, but it cannot be created or destroyed. The total amount of energy and matter in the Universe remains constant, merely changing from one form to another. The First Law of Thermodynamics (Conservation) states that energy is always conserved, it cannot be created or destroyed. In essence, energy can be converted from one form into another. The energy balance of a system –as a consequence of FLT- is a powerful tool to analyze the exchanges of energy between the system and its environment. We need to define the concept of internal energy of the system, E int as an energy stored in the system. Warning: It is not correct to say that a system has a large amount of heat or a great amount of work http://www.emc.maricopa.edu/faculty/farabee/BIOBK/BioBookEner1.html Page 4 Thermodynamics The First Law of Thermodynamics Heat and Work. First Law of Thermodynamics Heat and Work on Quasi-Static Processes for a Gas. The First Law of Thermodynamics System Surroundings The system can exchange mass and energy through the boundary with the environment. An example of “closed system” - no mass flow- is the gas confined in a cylinder. The boundary –in this case real wall- is made by the cylinder and the piston walls. Energy exists in many forms, such as mechanical energy, heat, light, chemical energy, and electrical energy. Energy is the ability to bring about change or to do work. Thermodynamics is the study of energy. The boundary of the system is arbitrarily chosen The First Law of Thermodynamics First Law of Thermodynamics ? Conservation of Energy: Energy can be changed from one form to another, but it cannot be created or destroyed. The total amount of energy and matter in the Universe remains constant, merely changing from one form to another. The First Law of Thermodynamics (Conservation) states that energy is always conserved, it cannot be created or destroyed. In essence, energy can be converted from one form into another. The energy balance of a system –as a consequence of FLT- is a powerful tool to analyze the exchanges of energy between the system and its environment. We need to define the concept of internal energy of the system, E int as an energy stored in the system. Warning: It is not correct to say that a system has a large amount of heat or a great amount of work http://www.emc.maricopa.edu/faculty/farabee/BIOBK/BioBookEner1.html The First Law of Thermodynamics. Heat, Work and Internal Energy Joule’s Experiment and the First Law of Thermodynamics. Equivalence between work and heat Schematic diagram for Joule´s experiment. Insulating walls are necessary to prevent heat transfer from the enclosed water to the surroundings. As the weights fall at constant speed, they turn a paddle wheel, which does work on water. If friction in mechanism is negligible, the work done by the paddle wheel on the water equals the change of potential energy of the weights. 1 calorie = 4.184 Joules Work is done on water. The energy is transferred to the water – i. e. the system- . The energy transferred appears as an increase in temperature. We can replace the insulating walls by conducting walls. We can transfer heat through the walls to the system to produce the same increase in temperature. The increase in temperature of the system is a consequence of an increase in Internal Energy. Internal energy is a state function of the system The sum of the heat transferred into the system and the work done on the system equals the change in the internal energy of the system on in W Q E + = int D Page 5 Thermodynamics The First Law of Thermodynamics Heat and Work. First Law of Thermodynamics Heat and Work on Quasi-Static Processes for a Gas. The First Law of Thermodynamics System Surroundings The system can exchange mass and energy through the boundary with the environment. An example of “closed system” - no mass flow- is the gas confined in a cylinder. The boundary –in this case real wall- is made by the cylinder and the piston walls. Energy exists in many forms, such as mechanical energy, heat, light, chemical energy, and electrical energy. Energy is the ability to bring about change or to do work. Thermodynamics is the study of energy. The boundary of the system is arbitrarily chosen The First Law of Thermodynamics First Law of Thermodynamics ? Conservation of Energy: Energy can be changed from one form to another, but it cannot be created or destroyed. The total amount of energy and matter in the Universe remains constant, merely changing from one form to another. The First Law of Thermodynamics (Conservation) states that energy is always conserved, it cannot be created or destroyed. In essence, energy can be converted from one form into another. The energy balance of a system –as a consequence of FLT- is a powerful tool to analyze the exchanges of energy between the system and its environment. We need to define the concept of internal energy of the system, E int as an energy stored in the system. Warning: It is not correct to say that a system has a large amount of heat or a great amount of work http://www.emc.maricopa.edu/faculty/farabee/BIOBK/BioBookEner1.html The First Law of Thermodynamics. Heat, Work and Internal Energy Joule’s Experiment and the First Law of Thermodynamics. Equivalence between work and heat Schematic diagram for Joule´s experiment. Insulating walls are necessary to prevent heat transfer from the enclosed water to the surroundings. As the weights fall at constant speed, they turn a paddle wheel, which does work on water. If friction in mechanism is negligible, the work done by the paddle wheel on the water equals the change of potential energy of the weights. 1 calorie = 4.184 Joules Work is done on water. The energy is transferred to the water – i. e. the system- . The energy transferred appears as an increase in temperature. We can replace the insulating walls by conducting walls. We can transfer heat through the walls to the system to produce the same increase in temperature. The increase in temperature of the system is a consequence of an increase in Internal Energy. Internal energy is a state function of the system The sum of the heat transferred into the system and the work done on the system equals the change in the internal energy of the system on in W Q E + = int D The First Law of Thermodynamics Another method of doing work. Electrical work is done on the system by the generator, which is driven by the falling weight.Read More
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FAQs on PPT: First Law of Thermodynamics - Thermodynamics - Mechanical Engineering
| 1. What is the First Law of Thermodynamics? |  |
Ans. The First Law of Thermodynamics, also known as the law of energy conservation, states that energy cannot be created or destroyed in an isolated system. It can only change its form or be transferred from one object to another.
| 2. How does the First Law of Thermodynamics relate to heat and work? | |
Ans. The First Law of Thermodynamics states that the change in internal energy of a system is equal to the heat added to the system minus the work done by the system. This equation, ΔU = Q - W, shows the relationship between heat, work, and the change in internal energy.
| 3. Can you provide an example to illustrate the First Law of Thermodynamics? | |
Ans. Sure! A good example is the operation of an engine. When fuel is burned inside the engine, it releases heat energy. This heat energy is then converted into mechanical work, such as the rotation of the engine's crankshaft. The change in internal energy of the system (engine) is equal to the heat added (from burning fuel) minus the work done (mechanical work).
| 4. How does the First Law of Thermodynamics relate to energy conservation? | |
Ans. The First Law of Thermodynamics is often referred to as the law of energy conservation because it states that the total energy of an isolated system remains constant. Energy cannot be created or destroyed, only transformed or transferred between different forms.
| 5. What are the practical applications of the First Law of Thermodynamics? | |
Ans. The First Law of Thermodynamics has numerous practical applications in various fields. It is used in the design and analysis of heat engines, such as car engines and power plants. It is also applied in the study of heat transfer, energy conversion, and energy conservation in various industrial processes and systems.
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