The volume and the mass of sample both depend on the size of the sample.
A small sample has small volume and small mass, a big sample has big volume
and big mass. But the ratio of mass to volume is constant for a pure sample of
a substance, no matter what size the sample is. That ratio is called the density
of the substance.
Yes.
It affects the volume of the sample. Your results will be affected because volume is the factor you are trying to determine. Air bubbles displace water just like anything else.
An extensive property as a physical quantity whose magnitude is additive for subsystems.The value of such an additive property is proportional to the size of the system it describes, or to the quantity of matter in the system. (Definition in 'en.wikipedia.org')
If you want actual values, you'll need to be more specific, I'm not about to list hundreds if not thousands of properties in the hopes that one of them is the one you want.It's probably more useful to discuss what the two terms mean. "Intrinsic" properties are those that are characteristic of the material itself ... it doesn't matter (within reason) how much of the material there is. Intrinsic properties are things like melting point, boiling point, color (sometimes), heat capacity, atomic/molecular mass, and so on. "Extrinsic" properties are those that depend on the "extent" of the material ... that is, how much there is of it. Mass, weight, and volume are extrinsic properties (though in some cases, dividing one extrinsic property by another can give you an intrinsic property again ... mass divided by volume yields density, an intrinsic property).
it depends on a lot of things like the volume of the ice and the volume of the glass and the temperature of the rom and the temperature of the orange juice.
they diffuse because of the concentration gradient. Their ability depends on their property like mass and charge.
A characteristic property is a chemical or physical property that helps identify and classify substances. The characteristic properties of a substance are always the same whether the sample you are observing is large or small. Therefore, mass and volume are measurements of how much of a thing you have rather than classifying.
A sample letter of a proposal to sell property should contain examples of what the final document should look like. Some information to include is the address of the property, the appraisal value, and the sale price.
Gas is NOT a property but matter.As such it has bothintensive (eg. temperature, density) andextensive properties (like mass, volume)
So a size dependent property is going to be a property that duh.. depends on the size. Like mass, volume etc. A size independent property is going to be a property that is intrinsic to the object, regardless of size. For example: the color of something. if you have a purple flower, the color of the flower does not change if you have two or three or four of them. density of an object is also another one.
So a size dependent property is going to be a property that duh.. depends on the size. Like mass, volume etc. A size independent property is going to be a property that is intrinsic to the object, regardless of size. For example: the color of something. if you have a purple flower, the color of the flower does not change if you have two or three or four of them. density of an object is also another one.
It affects the volume of the sample. Your results will be affected because volume is the factor you are trying to determine. Air bubbles displace water just like anything else.
An extensive property as a physical quantity whose magnitude is additive for subsystems.The value of such an additive property is proportional to the size of the system it describes, or to the quantity of matter in the system. (Definition in 'en.wikipedia.org')
The question is ridiculous. An extensive property is one that depends on the size or number of particles in a system such as mass or volume. An intrinsic property is one that doesn't depend on size or number of particles like density, specific heat capacity or boiling point.So, knowing that... you must agree. This question is ridiculous. Copper tubing is no more a property of a system than a pickup truck is an flavor of soda.
depends on the volume your using on max yes but on lower volume like in the middle it wont
it depends on how fast you move you lips the faster you move your lips the higher the volume the slower you move you lips the lower the volume is
Intensive - independent of quantity (like density) Extensive - depends on quantity (like mass, volume)
More pressure means less volume. Calculate the ratio of pressure, then divide the 4.2 liters by that ratio.This assumes: * That the temperature doesn't change. * That the gas behaves like an ideal gas.