What is matter?

by George E. Hrabovsky, President MAST

You will notice that I ask numerous questions and number them. I have no intention of answering these questions in sequence. The numbering is a bookkeeping device so that I can keep track of things. The point of this column is to investigate what heat is, and I will only go so far afield from that goal. This means that some questions will go unanswered. This is reasonable, and it allows for future projects based on those unanswered questions. Feel free to attempt to answer these questions for yourself.

Where We Have Been

We have covered what heat is, and we have learned what spaces are.  Now we need to get back to physics.

Session 4: What is matter?

To answer this question I introduce the chemistry book by Linus Pauling [1], where the first chapter deals extensively with this question. Pauling defines matter as any mass-energy moving at less than the speed of light (as opposed to radiant energy which does move at the speed of light). He goes on to describe the kinds of matter as substances. This raises the questions:

    30. What is mass-energy?

    31. What is the speed of light?

What is a substance?

A substance is a collection of matter whose elements have the same properties. Substances have a definite composition. They can further be separated into elemental substances or compound substances. An elemental substance is made up of atoms of the same kind. A compound substance is made up of atoms of different kinds. Thus oxygen gas consists of oxygen atoms and is an elemental substance, while water consists of atoms of hydrogen and oxygen and is a compound substance (or just a compound). This raises the questions:

    32. What are the properties of matter?

    33. What is an atom?

    34. How do atoms make matter?

How can matter have more than one substance?

The definition above gives the impression that all matter within an object will have the same properties. This is a definition of homogeneous matter. We can also have matter that is composed of parts that have different properties. This is called heterogeneous matter. Heterogeneous matter is further divided into solutions and mixtures.

Solutions are often homogeneous, though they are not considered to be substances. Other forms of heterogeneous matter are called mixtures.

    35.  What are the properties of matter?

What is a phase?

A phase is a homogeneous part of matter separated from other matter by some physical boundary.  Examples of phases are solids, liquids, gases, plasmas, and even more exotic forms of matter.

    36. What is a physical boundary?

    37. What is a solid?

    38. What is a liquid?

    39. What is a gas?

    40. What is a plasma?

    41. What are exotic forms of matter?

What does it mean to be ordered into one or more phases?

A mixture can be composed of different components, all of which have the same phase (for example a mixture of sulfuric acid and water as a liquid), or different components can be in different phases (for example, gas dissolved in water).

Book Review: General Chemistry

Linus Pauling, "General Chemistry," W. H. Freeman and Company (1970, reprinted by Dover Publications in 1998).

This is, in my opinion, the best beginning chemistry book. It was written by one of the greatest chemists of the last century. The first six chapters describe the properties of matter, including an introduction to atomic and molecular structure. Chapters 7 and 8 introduce some principles of organic chemistry. Chapter 9 introduces the properties of gases, quantum mechanics (including the Schrödinger equation), and statistical mechanics. Chapter 10 covers chemical thermodynamics and applies quantum mechanics and statistical mechanics to molecular systems. Chapter 11, which is all about chemical equilibrium introduces the Van der Waals equation of state. Chapter 12 introduces the chemistry of a truly weird substance: water. Chapter 13 introduces the chemistry of substances and colloids (another example of a mixed phase mixture). Chapter 14 is an introduction to the chemistry of acids and bases, including titration. Chapter 15 introduces the concepts of oxidation-reduction reactions and electrolysis, including metallurgy. Chapter 16 introduces the rate of chemical reactions, including chain reactions. Chapters 17 through 22 introduce inorganic chemistry by each inorganic elemental group in the periodic table. Chapter 23 completes the introduction to organic chemistry. Chapter 24 introduces biochemistry.  The last two chapters introduce the chemistry and physics of nuclei and elementary particles.

References

[1]: Linus Pauling, "General Chemistry," W. H. Freeman and Company (1970, reprinted by Dover Publications in 1998).