If work is done on a system as compression work and no heat interaction is allowed
between the system and the surroundings, then you have an adiabatic compression.
Assuming you also have no transfer of matter in or out of the defined system, you have described what is known as an "adibatic process".
An isobaric process is a thermodynamic-processin which the pressure stays constant: Δp = 0 The term derives from the Greek isos, meaning "equal," and barus, "heavy." The heat transferred to the system does work but also changes the internal energy of the system:
If a thermodynamic process takes place at a constant temperature it is called "isothermal". A word of caution however: the internal energy of a system may not remain the same in an isothermal process if the composition or phase changes; e.g. melting ice can be an isodthermal process but there is certainly a change in internal energy when it happens.
explain the process of the air transferred from low pressure to high pressure in the Air compressor system to produces the energy
Entropy
abrianna
There are three laws of thermodynamics, not inlcluding the understood fourth law. Thermodynamics is the study of how energy is transferred in a system.
An isobaric process is a thermodynamic-processin which the pressure stays constant: Δp = 0 The term derives from the Greek isos, meaning "equal," and barus, "heavy." The heat transferred to the system does work but also changes the internal energy of the system:
If a thermodynamic process takes place at a constant temperature it is called "isothermal". A word of caution however: the internal energy of a system may not remain the same in an isothermal process if the composition or phase changes; e.g. melting ice can be an isodthermal process but there is certainly a change in internal energy when it happens.
explain the process of the air transferred from low pressure to high pressure in the Air compressor system to produces the energy
Heat Flow and Energy.
No, even though they both gives energy but they are differ from where they get the energy for us to use. I C energy or Internal Combustion engine is getting the energy from the chemical to turn into a mechanical energy by means of burning the fuel. While closed thermodynamic system is one of the 3 kinds of thermodynamic, can exchange energy as a heat from outside system or from its surroundings, but not matter. Earth is an example of closed thermodynamic energy its getting the source of energy from the sun but no exchanging of mass outside.
Entropy
The heat supplied to a system can increase its internal energy if no work is extracted from the system. If any work is done by the system, then the increase in internal energy will be less than the heat supplied to the system. The thermodynamic variable defined by the zeroeth law is Temperature.
Thermodynamic equilibrium is when the inputs and outputs of a system is equal. This may be in terms of heat energy or in terms of liquid/gas flow.
heyye
abrianna
Short Answer:The difference between heat and internal energy is that heat is technically a process by which energy is transferred between systems and internal energy is actual total energy of a system.Details:The meaning and use of terms related heat, temperature, energy varies depending on whether one is informally describing thermodynamic processes or one is being rigorous according to the definitions of thermodynamiocs. For most communication, even most scientific communication, the informal understandings are adequate.The nuances of the technical terms requires the study of thermodynamics, but will be (too) briefly described below.Temperature is directly proportional to the amount of kinetic energy the individual particles have within a body.Internal energy of a system is the total energy of the system. It is the sum of the potential and kinetic energies in all forms, including chemical bonds, rest mass, magnetic energy and everything else.Heat is thermal energy transferred to body. It is energy transferred through a temperature difference. Cold objects gain heat from warm ones.Thermal energy is energy associated with temperature. Thermal energy is not kinetic energy or heat. It is not a rigorously defined thermodynamic quantity when taken out of context.Work is force times distance, a mechanical process which changes the total energy of a system and does not require heat.See related links.