Kinds of Matter: Difference between revisions

Claimed by Kristen Sparks

This topic covers the Different Kinds of Matter.

The Main Idea

No matter how how big or small the matter, physics can be applied to all objects.

Atoms and Nuclei

All matter is made of atoms. To understand the properties of matter around us we look at atomic properties and interactions. Atomic interactions can be attributed to the attractive and repulsive forces due to the different parts of an atom which are: protons, electrons, and neutrons. Protons and neutrons make up a small, dense center called a nucleus. Around the nucleus are electrons, whose negative forces are attracted to the positive center.

The number of neutrons and protons in specific chemical elements can be found on the periodic table.

Molecules and Solids

When atoms bond together molecules are formed. Molecules can be made up of any number of chemical elements, but as a whole the molecule's properties differ from the properties of its subelements.

Solids are rigid objects made up of molecules. Scanning tunneling microscopes (STMs) are used to see molecules and atoms that make up everyday solids. STMs can observe patterns and irregularities that may occur on the surface of solids, which have helped scientists understand more about what happens on the atomic level of matter.

Liquids and Gases

Liquids are formed when solids are heated. Atoms begin to vibrate too fast to maintain their normal rigid positions. If the temperature increases enough atoms will start to shift past one another therefore becoming a liquid. If the temperature is further increased the sliding of atoms will turn into interatomic bond breaking which will lead to gas formation.

Planets, Stars, Solar Systems and Galaxies

Plants and stars make up solar systems, and multiple solar systems make up galaxies.

Point Particles

Point particles are often used to analyze more complicated/large objects. Physicists assume that these objects have been compressed into structures where size, shape and internal structure are not taken into consideration: a tiny speck with equivalent mass as the object its representing.

Examples

Atom

Crystalline Solid

STM Image

Connectedness

The different kinds of matter are important to understanding how physics can be applied to everyday life. It helps connect the misunderstood atomic and subatomic level to something that everyone can understand. More advanced physics will correlate atomic bonds to springs, a juxtaposition that helps explain a complex interaction with a simple explanation.

History

The first theories on atomic and subatomic particles began with J. J. Thompson in 1897, when he discovered electrons. An idea made the scientific community realize that atoms were not the smallest particles of matter. Then in 1909 Ernest Rutherford started experimenting with gold and alpha particles, and experiment that lead to the discovery of nuclei.

These fundamental discoveries lead to the deep understanding of the atomic world that scientists have today. Without them the properties of matter and physics would be a grayer area of science.

See also

Fundamental Interactions

System & Surroundings

External links

http://www.livescience.com/46506-states-of-matter.html

References

Matter and Interactions By Ruth W. Chabay, Bruce A. Sherwood - Chapter 1 http://www.sparknotes.com/testprep/books/sat2/physics/chapter19section2.rhtml