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Explore the physical behavior of matter and learn about the properties and characteristics of solid, liquid, gas, and other states of matter. Discover the kinetic theory of matter and its applications in solids, liquids, and gases.
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Chapter 10: The Kinetic Theory of Matter Section 10.1: Physical Behavior of Matter
Main Idea: The common states of matter are solid, liquid and gas Compare characteristics of a solid liquid or gas Relate the properties of a solid, liquid, and gas to the kinetic theory of matter Distinguish among amorphous solids, liquid crystals, and plasmas
Classification Based on properties: position and movement of atoms ions or molecules
Solid has a fixed volume that cannot be compressed into a smaller volume is rigid with a definite shape because the atoms, ions, or, molecules are in fixed positions
Liquid is flowing matter with a definite volume but an indefinite shape takes the shape of its container
Gas flowing, compressible matter that has no definite volume or shape spreads out to fill the space particles are much farther apart than they are in solids and liquids particles can be easily pushed together
Solid, Liquid and Gas Video on states of matter
Brownian Motion Robert Brown- 1827 Observed that particles in water (pollen grains) move continuously in random, irregular directions Definition: constant, random motion of tiny chunks of matter https://www.youtube.com/watch?v=hy-clLi8gHg
Only Water??? Water molecules are not the only molecules that display random motion
Kinetic Theory of Matter states that submicroscopic particles of all matter are in constant motion Kinetic energy is the energy of moving objects
Kinetic Model of Gases A gas particle can change direction only when it strikes the wall of its container or another gas particle Assumptions: Each gas particle rebounds without losing kinetic energy and without losing speed, but in a new direction Collisions of particles in a gas are called elastic collisions because no kinetic energy is lost
Ideal gas gas with particles that are in constant motion but have no attraction for each other. The particles undergo elastic collisions. Except at very low temperatures or very high pressures, nearly all gases act as ideal gases
Gas Particles and Pressure Pressure is the force acting on a unit area of a surface Example: psi = pounds per in2 Particles in a gas exert a force on each square cm of the walls of the container when the wall deflects them Earth’s atmosphere (mixture of gases) exerts pressure also. Constant bombardment of molecules in the air
Kinetic Model of Liquids Particles of a liquid can slide past each other, but they are so close together that they don’t move as straight as gas particles
Kinetic Model of Solids Strong forces between particles explain the rigid structure of solids Particles of a solid cannot move past each other, but they are in constant motion (vibration) Particles occupy fixed positions in a well defined, 3-dimensional arrangement Crystal lattice- The arrangement, which is repeated throughout the solid When a solid melts, its crystal lattices disintegrate and its particles lose their 3-dimensional pattern
Other forms of matter not classified as solids, liquids or gases http://education-portal.com/academy/lesson/the-kinetic-molecular-theory-properties-of-solids-and-liquids.html#lesson
Amorphous Solid Haphazard, disjointed, and incomplete crystal lattice Examples: candle wax, cotton candy, peanut butter https://www.youtube.com/watch?v=bzr-byiSXlA
Liquid Crystal materials that lose their rigid organization in only one or two dimensions when they melt interparticle forces in a liquid crystal are relatively weak and their arrangement is easily disrupted When the lattice is broken, the crystal can flow like a liquid Liquid crystal displays (LCDS) are used in watches, calculators, etc. because they can change colors at specific temperatures https://www.youtube.com/watch?v=nAJgchCI3kg
Plasma an ionized gas that forms at very high temperatures most common form of matter in the universe but least common on Earth (sun and stars) can conduct electrical current and are electrically neutral (contain equal numbers of free electrons and positive ions) are called high-energy states of matter because high energy is needed to separate and to maintain separation of the atoms into ions and electrons
Bose-Einstein Condensate (BEC) Predicted by Einstein in 1924, Created in 1995 (CU Boulder- Cornell/ Weiman) a rare state (or phase) of matter that occurs at extremely low temperature, near the value of absolute zero (at zero- no particles move) Superfluid helium-4 that involve Bosons https://www.youtube.com/watch?v=nAGPAb4obs8
In the July 14, 1995 issue of Science magazine, researchers from JILA reported achieving a temperature far lower than had ever been produced before and creating an entirely new state of matter predicted decades ago by Albert Einstein and Indian physicist Satyendra Nath Bose. Cooling rubidium atoms to less than 170 billionths of a degree above absolute zero caused the individual atoms to condense into a "superatom" behaving as a single entity. The graphic shows three-dimensional successive snap shots in time in which the atoms condensed from less dense red, yellow and green areas into very dense blue to white areas. JILA is jointly operated by NIST and the University of Colorado at Boulder.
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