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Rafa
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RenePROPERTY is a point function..it is exact differential and measurable ..
There are two types of thermodynamics properties - 1. INTENSIVE PROPERTIES 2.EXTENSIVE PROPERTIES
INTENSIVE PROPERTIES are those which doesn't depend upon the mass or volume of the body
EXTENSIVE PROPERTIES are those which depend upon the mass or volume of body .
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Why you use reduced properties?
Reduced properties allow for universal comparison of thermodynamic properties between different substances, enabling easier calculations and analysis. By normalizing properties like temperature and pressure to their critical values, reduced properties simplify the representation of thermodynamic data across a wide range of substances.
Why defects in crystals are called thermodynamic defects?
Defects in crystals are called thermodynamic defects because they influence the overall energy or thermodynamic properties of the crystal lattice. These defects can affect the stability, entropy, and other thermodynamic properties of the crystal structure. They are considered in the context of thermodynamics as they impact the equilibrium state and behavior of the crystal material.
Is heat a thermodynamic function?
what is heat a thermodynamic function
What should you know first before starting a thermodynamic analysis?
Before starting a thermodynamic analysis, you should be familiar with the basic principles of thermodynamics, understand the properties of the system you are analyzing, and have a clear understanding of the boundary conditions and assumptions that apply to the specific problem you are studying. It's also important to have a good grasp of relevant equations and be able to apply them correctly to solve the problem at hand.
What are two factors same for the density of a pure substance to stay constant?
Density is an intrinsic property of each type of material, defined as the total mass divided by the total volume. Obviously, two samples of the material which have the same mass and same volume will have the same density, but that is not that answer to this question. This question is about the thermodynamic state of a material and the answer is temperature and pressure. The thermodynamic state of a system is a set of properties that are reproducible when the thermodynamic variables have been specified. Density is one such property. Specifying the temperature, pressure and specifying the quantity and type of material of a system determines density at equilibrium. The equilibrium condition is critically important in that assertion. It is a fundamental premise of thermodynamics that the state of a simple system at equilibrium can be completely characterized by specifying two independent property variables, such as temperature and pressure, and the quantities of the chemical constituents. Any system then with the same thermodynamic state has the same intrinsic properties such as density, heat capacity, thermal conductivity, viscosity, and other characteristics.
