i would say intensive
Pressure is an intensive property. Intuition says it should be extensive (dependent on the size of the system), but since it is defined as a ratio of two extensive properties, the extensive-ness cancels out. Pressure = Force / Area = Work / (Distance x Area) = Work / Volume Work and volume are both extensive properties; pressure is therefore intensive.Another way to look at the problem is to consider the consequences of the definitions of intensive and extensive properties. When two identical systems are added to each other, extensive properties are doubled (they are additive) and intensive properties stay the same (they are independent of size). So, if two systems, each containing 1L and 1 mole of an ideal gas at 25 degrees C are added to each other, we get the following results: 1. Volume is extensive. (Proof: 1L + 1 L = 2 L)2. Quantity is extensive. (Proof: 1 mole + 1 mole = 2 moles)3. Temperature is intensive. (Proof: everything stays at 25 degrees C) Volume doubles, but so does the number of moles. The pressure remains the same, even after doubling the size of the system! (PV = nRT; see the Ideal Gas Law to confirm this conclusion.) Pressure is therefore an intensive property, ie. independent of the size of the system.
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.
Magnetic properties are considered an extensive property, as they depend on the amount of material present. In other words, the magnetic behavior of a substance will change with the quantity of the substance.
No, area is an extensive property because it depends on the size or extent of the system being considered. Intensive properties, on the other hand, are independent of the size or amount of the system.
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
Neither. Benzoic acid is... benzoic acid. Intensive and extensive are properties are characteristics of elements and compounds such as color, density, odor, conductivity, etc. To say benzoic acid is extensive or benzoic acid is intensive doesn't make sense.
an intensive property is the one that is independent from the mass of number of particles in a system while an extensive proeprty depends on them. Energy (e.g. heat) is a property that depend on the mass or the number of particles in a system. In other words, energy is an extensive property.
In thermodynamics, intensive quantities do not depend on the size of the system. For example temperature and density are size-independent, intensive quantities.Extensive quantities, on the other hand, are proportional to the size of the system: volume is an obvious one, internal energy and entropy are others.A quick mental test is this: if I were to double the system's size by joining it to a duplicate of itself, would the relevant quantity remain the same or double? If it stays the same it is intensive, otherwise it is extensive.
Pressure is an intensive property. Intuition says it should be extensive (dependent on the size of the system), but since it is defined as a ratio of two extensive properties, the extensive-ness cancels out. Pressure = Force / Area = Work / (Distance x Area) = Work / Volume Work and volume are both extensive properties; pressure is therefore intensive.Another way to look at the problem is to consider the consequences of the definitions of intensive and extensive properties. When two identical systems are added to each other, extensive properties are doubled (they are additive) and intensive properties stay the same (they are independent of size). So, if two systems, each containing 1L and 1 mole of an ideal gas at 25 degrees C are added to each other, we get the following results: 1. Volume is extensive. (Proof: 1L + 1 L = 2 L)2. Quantity is extensive. (Proof: 1 mole + 1 mole = 2 moles)3. Temperature is intensive. (Proof: everything stays at 25 degrees C) Volume doubles, but so does the number of moles. The pressure remains the same, even after doubling the size of the system! (PV = nRT; see the Ideal Gas Law to confirm this conclusion.) Pressure is therefore an intensive property, ie. independent of the size of the system.
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.
Intensive land use involves maximizing production on a smaller land area through techniques such as high inputs of labor, capital, and technology. Extensive land use, on the other hand, involves utilizing larger land areas with lower inputs per unit of land.
Endoplasmic Reticullum(E.R)
extensive research is empirical and concrete. Large samples are taken to capture variabilities. Intesive research, on the other hand, is abstract and theoretical. Small samples are taken to uncover underlying casual mechanisms. Intensive research is much more in depth and often leads to case studies research
An extensive property of aluminum is its mass. Extensive properties depend on the amount of material present; thus, the mass of aluminum increases as more aluminum is added. Other examples of extensive properties include volume and total energy. These properties contrast with intensive properties, which remain constant regardless of the quantity of material.
Humidity is an intensive physical property, since it is independent of the size of the system and of the amount of material within the system. Other examples are: temperature and density.
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.
Magnetic properties are considered an extensive property, as they depend on the amount of material present. In other words, the magnetic behavior of a substance will change with the quantity of the substance.