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There are more than four states of matter. Consult an encyclopedia for details.Matter is categorized as a solid, liquid, or gas and the three major properties are the size, volume, and shape.
If they are not matched pairs, it does not really matter. If the combined sample size is fixed (because of costs, say) then it is better to have a larger sample where more variability is expected.
It's quite acceptable to call it a 75-agon but more important is knowing how to work out its properties.
It's quite acceptable to call it a 59-agon but what's more important is knowing how to work out its properties.
It is quite acceptable to call it a million-agon or a 1,000,000-agon but what is more important is knowing how to work out its properties
There are more than four states of matter. Consult an encyclopedia for details.Matter is categorized as a solid, liquid, or gas and the three major properties are the size, volume, and shape.
A physical change is a change that affects one or more properties of matter. For example, if you have a popsicle and it melts, it's looks change but the physical properties don't
A physical change is a change that affects one or more properties of matter. For example, if you have a popsicle and it melts, it's looks change but the physical properties don't
Solids and Liquids both have a definite volume. Gas has no volume it can fill any space.
This has lots of answers; some of them are: malleability chemical properties electrical properties color texture I suspect there are more because the size of something rarely changes the intrinsic properties of that something.
Size can be a qualitative property of matter, meaning we observe it with our 5 senses. A more exact measurement can be made, such as the length, mass, weight, or volume of matter. These are considered quantitative properties, or measurable properties.
the affect of adding heat to the partials in a sample of matter is more likely to make a chemical exlotion that can blow the whole world up in to little tiny peices
If they are not matched pairs, it does not really matter. If the combined sample size is fixed (because of costs, say) then it is better to have a larger sample where more variability is expected.
The more information we will be even more secure identification.
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's quite acceptable to call it a 100-agon but what's more important is knowing how to work out its properties
It's quite acceptable to call it a 30-agon but what's more important is knowing how to work out its properties.