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States of Matter. Chapter 7 Lesson 2 Page 264. Matter . Matter is divided into 3 main categories . Liquids. Solids. Gases. Plus the latest two . Plasmas and Bose-Einstein Condensates. States of Matter. There are three states of matter: Solid Liquid Gas.
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States of Matter Chapter 7 Lesson 2 Page 264
Matter Matter is divided into 3 main categories Liquids Solids Gases Plus the latest two Plasmas and Bose-Einstein Condensates
States of Matter There are three states of matter: Solid Liquid Gas How do you describe a solid? SC.8.P.8.1 How do you describe a liquid? SC.8.P.8.1 How do you describe a gas? SC.8.P.8.1
States of Matter Gas Liquid Solid Notice the distance between the particles/atoms fit in each state
Solids Solid- has a definite shape and a definite volume This fixed closely pack arrangement of particles in a solid cause it to have a definite shape and volume
Solids Solids have weight and take up space Solids have their own shape, they do not take the shape of its container. Its particles are packed very closely together The particles are so close that they can only vibrate There are two types: Crystalline and Amorphous
Solids Glass Crystalline • Particles have a regular repeating pattern, these patterns create a crystals. • Are made up of crystals • Melt at a certain temp • Examples: salt, sugar, and snow • Amorphous • The particles are not arranged in a regular patterns. • They don’t melt at a distinct temperature • It may become softer and softer and change into something else • Examples: • glass, plastics, and rubber Bismuth Crystal
Solids • Crystalline solids- solids made of crystals (sugar, salt, snow) • When a crystalline solid is heated, it melts at a distinct temperature • Amorphous solids- particles are not arranged in a regular patter • They become softer or change into another substance when heated (glass, plastics, rubber)
Liquids • Liquid- has a definite volume, but no shape of its own • Because of liquid has not definite shape, its particles are free to move
Liquids Liquids take the shape of their container. Liquids have weight. Liquids have a constant volume Liquids take up space. It is particles move around but still touch. Molecules of liquids attract each other
Let’s start under the surface of the liquid: Liquid molecules have like molecules all around them Read page 268 Properties of Liquids Surface Tension:- an inward force or pull among molecules in a liquid that brings the molecules on thesurface closer together
So the they cohere more strongly to those like molecules and form a surface "film" which makes it more difficult to move an object through the surface than to move it when it is completely submersed. Example a floating needle or insect walking on water Properties of Liquids Surface Tension At the surface molecules have like molecules only on their sides
FYI:Properties of Liquids That attraction between molecules is known as either cohesion or adhesion Cohesion is the attraction of like molecules Adhesion the attraction of unlike molecules: ex: liquid water molecules to the glass, they are poured in.
Properties of Liquids Viscosity Is a liquids resistance to flowing A liquids viscosity depends on the size and shape of its particles and the attraction between them. Liquids with high viscosity flow very slowly Liquids with low viscosity flow freely Like Honey Like Olive Oil
Gas • Gas- has neither a definite shape or volume • As gas particles move, they spread apart filling all the space available. Thus a gas have neither definite shape or definite volume
Gases The particles spread apart at high speeds Gases spread out to fill the entire space given. Gases have weight. They have neither Definite shape nor volume Gases take up space. They take the shape and volume of their container
Properties of Gases Pressure of the gas is the force of its outward push divided by the area of the walls of its container. The firmness of a gas filled object comes from the pressure of the gas in the container
FYI :Plasma Plasma is a lot like a gas, but the particles are electrically charged But the atoms are different because they are made up of free electrons and ions of the element.
Plasma You don't find plasmas too often when you walk around. They aren't things that happen regularly on Earth. Lightning is a plasma. Used in fluorescent light bulbs and Neon lights.
FYI: Bose-Einstein Condensates Calcium Condensate Rubidium Condensate The formation of a Bose-Einstein condensate. As experts lower the temperature of the atoms, the cloud on the left gradually localizes to form a pure condensate in the right-hand image. These atoms are just one hundred billionths of a degree above absolute zero Are super-unexcited and super-cold atoms. Basically when the temperature gets very close to 0*K. (few billionths of a degree above absolute zero). Atoms start to clump and become one. They start to occupy the same space.
Temperature Is the measure of how hot or cold something is. But what determines an objects temperature? The kinetic energy of an atom. Simply put kinetic energy is the speed at which the atoms/particles are moving. The faster the particles are moving, the greater their energy and the higher the temperature, and vice versa
What would it take for matter to move from one state to another? States of Matter
Particles in Solids: Are packed tightly together Have very little energy Remember they atoms shake in place