yes, both are intensive properties.
Yes, molar volume and internal energy are intensive properties because they do not depend on the amount of substance present. Intensive properties are specific to the type of material being observed and are often used to characterize and compare substances.
Samples of platinum and copper can have the same extensive properties (such as mass and volume) because they depend on the amount of the substance. However, they may have different intensive properties (such as density or melting point) because these properties are inherent to the substance itself and are not dependent on the sample size.
Intensive properties remain the same with a change in the amount of a substance - for example: temperature and density Extensive properties do not remain the same with a change in the amount of a substance - for example: mass and volume
The properties of a substance can be divided up into two basic kinds: Intensive properties are those that do not depend on how much of the substance you have. For example, the boiling point is an intensive property: water boils at the same temperature no matter if you have 1 gram, 10 grams or 100,000 kilograms of water. Other examples of intensive properties include density, solubility, color, and melting point. Extensive properties depend on the amount of the substance. For example, the volume of a sample is an extensive property: 100 grams of water takes up more volume than 1 gram of water. Mass is also an extensive property.
Examples of intensive physical properties of a substance include density, melting point, boiling point, and specific heat capacity. These properties do not depend on the amount of the substance present, making them useful for identifying and characterizing different materials.
Examples of extensive properties are: mass, volume, length, Heat, Force e.t.c Examples of intensive properties are: color,shape, boiling point, melting point, density, luster, hardness and taste
Thermodynamic properties are specific volume, density, pressure, and temperature. Other properties are constant pressure, constant volume specific heats, Gibbs free energy, specific internal energy and enthalpy, and entropy.
All quantitative variables will be reduced including: Internal energy Enthalpy Gibbs energy Volume Mass Moles All intensive properties will remain unchanged including: Specific internal energy Specific enthalpy Specific Gibbs energy Specific volume (and its reciprocal density) Temperature Pressure Heat capacity Elasticity Conductivity etc.
Thermodynamic properties are specific volume, density, pressure, and temperature. Other properties are constant pressure, constant volume specific heats, Gibbs free energy, specific internal energy and enthalpy, and entropy.
The different between intensive properties and extensive properties is that one is depend on the amount of matter present and one is do not depend on the amount of matter of present.
Volume is an extensive property because it depends on the amount of the substance. Intensive properties do not depend on the amount of the substance.
Intensive properties do not depend on the matter's amount of the physical system (mass density, temperature ...). Extensive properties do depend on the amount of matter that is present (volume, mass and size).
The properties that describe the appearance of matter are: 1.solid,liquid and gas 2.shape and volume.
Intensive - independent of quantity (like density) Extensive - depends on quantity (like mass, volume)
Gas is NOT a property but matter.As such it has bothintensive (eg. temperature, density) andextensive properties (like mass, volume)
Examples are temperature, color, hardness, melting point, boiling point, pressure, molecular weight, and density. Because intensive properties are sometimes characteristic of a particular material, they can be helpful as clues in identifying unknown substances.
There are many examples of extensive properties. Some are mass, energy content, and volume.
The properties of a substance can be divided up into two basic kinds: Intensive properties are those that do not depend on how much of the substance you have. For example, the boiling point is an intensive property: water boils at the same temperature no matter if you have 1 gram, 10 grams or 100,000 kilograms of water. Other examples of intensive properties include density, solubility, color, and melting point. Extensive properties depend on the amount of the substance. For example, the volume of a sample is an extensive property: 100 grams of water takes up more volume than 1 gram of water. Mass is also an extensive property.