Which is an intensive property of a substance quizlet?

An intensive property doesn’t change regardless of the mass of the sample. Think of intensive properties as INdependent, they don’t depend on the mass of the sample. Examples are temperature, color, hardness, melting point, boiling point, pressure, molecular weight, and density.

Which is an intensive property of a substance density?

The two values are essentially the same so we know that density is a ratio between mass and volume. Density is an intensive property of matter that illustrates how much mass a substance has in a given amount of volume.

Which of the following is an intensive quantity?

Both temperature and refractive index are intensive properties.

Which one of the following is a extensive property?

Mass and volume are extensive properties.

What is an extensive property of a substance?

An extensive property is a property that depends on the amount of matter in a sample. Mass and volume are examples of extensive properties. … Color, temperature, and solubility are examples of intensive properties.

Is flammability an intensive property?

Intensive properties are used to identify a substance and do not depend upon the amount of substance (density). … Chemical matter properties include flammability and reactivity.

Is viscosity an intensive property?

The viscosity does not change as the amount of matter changes and thus, it is an intensive property.

Is malleability extensive or intensive?

Malleability is certainly an intensive property.

Are intensive and extensive properties physical properties?

Both extensive and intensive properties are physical properties, which means they can be measured without changing the substance’s chemical identity.

Is shape intensive or extensive?

Extensive properties include mass, length, volume, and shape.

Which of these are intensive variable?

Examples of intensive variables are the pressure, temperature, density, specific heat capacity at constant volume, and viscosity. An intensive variable results when any extensive variable is divided by an arbitrary extensive variable such as the volume.

Which of the property listed below are intensive property?

Examples of intensive properties include temperature, T; refractive index, n; density, ρ; and hardness of an object, η. By contrast, extensive properties such as the mass, volume and entropy of systems are additive for subsystems.

Is luster an intensive property?

Intensive properties do not depend on the amount of substance. … Other examples of intensive properties include density , solubility, color, luster, freezing point and malleability.

Which is an intensive property of a thermodynamic system?

Intensive thermodynamic properties

Intensive properties are those properties of the system which do not depend on the extent of the system. That means intensive properties are not related to the mass. Examples of intensive properties: temperature, pressure, density etc.

What are examples of intensive physical properties?

Examples of intensive physical properties include:
  • Density.
  • Melting point.
  • Boiling point.

Which of the following is the intensive property of a thermodynamic system?

Hence, the pressure is an intensive thermodynamic property.

Detailed Solution.
Intensive property Extensive property
For example Pressure, Specific enthalpy, Temperature, Density, Composition, Force, Specific Heat Capacity, etc. For example Internal Energy, Enthalpy, Mass, Volume, Entropy, Weight, Heat Capacity

What are the properties of thermodynamics substances?

Beilstein handbook of organic chemistry.

Specific thermodynamic properties include: enthalpy of combustion, formation, fusion, hydrogenation, phase transi- tion, vaporization, and sublimation; entropy and entropy of formation; Gibbs energy of formation; and heat capacity.

What is meant by thermodynamics property?

Thermodynamic properties are defined as characteristic features of a system, capable of specifying the system’s state. Some constants, such as the ideal gas constant, R, do not describe the state of a system, and so are not properties.