Not really.
Intensive means that it does not depend on the quantity of mass in the system.
Extensive means that it DOES depend on the quantity of mass in the system.
It's a binary choice - either it does or does not - either it's extensive or it's intensive.
Mass is not an intensive property, it is an extensive property, i.e. the mass of a system made of two parts A and B is equal to the mass of A plus the mass of B. An intensive property (e.g. pressure or temperature) is one in which the value of the property for the entire system is equal to the value of the property for any of the subsystems. So, you probably wanted to ask why mass is an extensive property. This is a consequence of the law of gravity and of the fact that forces add up to make a resultant force. The total gravitational force upon a body X by two other bodies A and B is the sum of the force exerted by A and the force exerted by B. It's as if we have a combined body with the mass of A plus the mass of B, and thus mass is extensive.
Anintensive property is a property of matter that is independent of the quantity of the substance. Density, boiling and melting points, and specific gravity are all intensive properties.An extensive property depends on the quantity of a substance. Mass and volume are extensive properties.
It can have either a high or a low pressure system or neither depending on the weather it is experiencing at any given time.
No. Neither half a pound nor a pound have any place in the metric system. And they never did have a place either.
Saturn has the most extensive and prominent ring system of any planet in our solar system. These rings are made up of numerous small particles of ice and rock.
Mass is not an intensive property, it is an extensive property, i.e. the mass of a system made of two parts A and B is equal to the mass of A plus the mass of B. An intensive property (e.g. pressure or temperature) is one in which the value of the property for the entire system is equal to the value of the property for any of the subsystems. So, you probably wanted to ask why mass is an extensive property. This is a consequence of the law of gravity and of the fact that forces add up to make a resultant force. The total gravitational force upon a body X by two other bodies A and B is the sum of the force exerted by A and the force exerted by B. It's as if we have a combined body with the mass of A plus the mass of B, and thus mass is extensive.
Anintensive property is a property of matter that is independent of the quantity of the substance. Density, boiling and melting points, and specific gravity are all intensive properties.An extensive property depends on the quantity of a substance. Mass and volume are extensive properties.
Melting of ice is a physical change where solid ice turns into liquid water without changing its chemical composition. Boiling water is another physical change where liquid water turns into water vapor without any change in chemical properties.
Gibbs free energy is an extensive property, meaning it depends on the amount of substance present in the system. It is defined as the maximum amount of non-expansion work that can be extracted from a closed system at constant temperature and pressure. The Gibbs free energy equation includes terms for both enthalpy and entropy, making it a measure of the system's overall energy and randomness.
Without extensive support and equipment, not in our solar system
Wat is the best intensive growth strategy of a Soup company?
It can have either a high or a low pressure system or neither depending on the weather it is experiencing at any given time.
In our solar system, neither Mercury nor Venus are believed to have any moons.
An extensive property DOES depend on the amount of substance. So, temperature is an INTENSIVE property, and the value measured in 200 ml will be the same as that measured in 1 ml or 1000 ml of the same water.
No, they don't, neither they have any blood system at all.
Saturn has a bigger ring system than any other known planet. It's ring system was made of a small moon ripped apart by Saturn's gravitational pull.
No. Neither half a pound nor a pound have any place in the metric system. And they never did have a place either.