Yes, it is very possible. For example a stone has a mass (extensive) and a density (intensive).
the properties depending upon the quantity of substance are extensive and the ones which are not are intensive One simple technique is to think about a box filled with the substance under consideration and divide it into two halves, if the property remains same (temp, density etc) then its intensive and if diff. (volume, mass etc) then extensive...
Density is a physical property that does not change even if the sample of the size changes. For example, if water weighs 1 pound per cup (density = 1lb/cup), it doesn't matter if you have 10 cups of water or 100, the water will still weight 1 per per cup.
in context... the apple is red, being red is one property of this apple... the apple has pips (seeds) this is another property of the apple. However there are lots of objects that have both pips and are red... so these are not unique to it. yes in short! x
The metalloids have properties of both metals and nonmetals.
An element that has properties of both metals and non-metals is called Metalloid. Example is Germanium.
Sulfur is an element that has both extensive and intensive properties.
Samples of platinum and copper can have the same extensive properties but not the same intensive properties for a couple of reasons. These are both metals but have differing numbers of electrons.
the properties depending upon the quantity of substance are extensive and the ones which are not are intensive One simple technique is to think about a box filled with the substance under consideration and divide it into two halves, if the property remains same (temp, density etc) then its intensive and if diff. (volume, mass etc) then extensive...
No matter what size a sample is, if is hard, it will still be just as hard. This means that hardness is an intensive properties. Intensive properties do not matter what size of sample is being used. Extensive properties will change if sample size is changed.
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.
An extensive property is one that relies on the amount of the substance. An intensive property is one that does not have to rely on the amount of substance present. Some examples of extensive properties are mass and volume, because both rely on the amount of substance present in order to be calculated.
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.
Intensive properties depend only on the type of matter you're dealing with. For example, density: a single atom of gold will have the same density as a huge bar of gold, it doesn't matter how much of it there is. Extensive properties do depend on how much of the substance you have. A cubic centimeter of gold has more volume and mass than an atom of gold, so they are both extensive properties.
Pressure is an intensive property. Perhaps intuition would say it should be extensive (dependent on the size of the system), but if you think about it, you can have two systems of totally different size (and even composition) which both have the same pressure - so it is clearly independent of system size. Sometimes people get confused because if you take a fixed system and start changing other extensive properties like the amount of mass in the system, the pressure can change.
The extensive margin in economics refers to the quantity of goods or services produced or consumed, while the intensive margin refers to the quality or characteristics of those goods or services. The extensive margin impacts market size and overall production levels, while the intensive margin affects product differentiation and consumer preferences. Both margins play a role in shaping market dynamics by influencing supply, demand, pricing, and competition.
Both
Melting point is an intensive property. Regardless of the amount of a substance present the melting point will remain the same.