Identify different kinds of matter based on the following physical properties: states, boiling point, melting point, and solubility SolidGasLiquid
Defining States of Matter States of matter are NOT defined by what they are made of. –Example: solids can be elements (gold), compounds (Salt = NaCl), or mixtures (butter) Element (Au)Compound (NaCl)Mixture (Milk, Salt, etc)
Defining States of Matter States of matter are defined by whether they hold SHAPE and VOLUME Element (Au)Compound (NaCl)Mixture (Milk, Salt, etc) ALL KEEP THE SAME SHAPE AND VOLUME = Solids
Defining States of Matter Solids – have a definite SHAPE and VOLUME. Element (Au)Compound (NaCl)Mixture (Milk, Salt, etc) ALL KEEP THE SAME SHAPE AND VOLUME
Particle View of a Solid Particles in a solid are PACKED CLOSELY together and they are in a FIXED POSITION. Particles vibrate in place
Liquids Liquids – has definite VOLUME but no defined SHAPE 100 ml
Particle View of a Liquid Packed CLOSELY (like a solid), but move FREELY around each other (must stay in contact).
Gases Gases - do NOT have definite SHAPE or VOLUME. Bromine gas fills up the entire volume of the container
Particle view of a Gas Particles can MOVE FREELY and will either fill up or squeeze into available space.
Questions What are the 3 states of matter? Write a definition for each state?
Questions 1) Which Statement is True? –A) Liquids have a definite shape and volume –B) States of matter are defined by the substances they are made up of –C) Gases have a definite shape and volume –D) Solids have a definite shape and volume
Task Draw a diagram of –A) Gas particles –B) Liquid particles –C) Solid particles
Changes in States of Matter Thermal Energy – heat energy. More thermal energy = More particle movement
Changing States Solid Gas Liquid Increase Thermal Energy (Heat up) Decrease Thermal Energy (Cool off)
Melting point Melting - change from solid to liquid Melting point - SPECIFIC temperature when melting occurs. Each pure substance has a SPECIFIC melting point. Use this link to collect the missing information below media/ChemicalInteractions/table/table.html media/ChemicalInteractions/table/table.html Examples: M.P. of Water = 0°C (32°F) –M.P. of Nitrogen = °C ( °F) –M.P. of Silver = °C ( °F) –M.P. of Carbon = °C ( °F)
Melting Point Particles of a solid vibrate so fast that they break free from their fixed positions. Solid Liquid Increasing Thermal Energy Melting point
Vaporization Vaporization – change from liquid to gas Vaporization happens when particles in a liquid gain enough energy to form a gas. Gas Liquid Increasing Thermal Energy Boiling point
Two Kinds of Vaporization Evaporation – vaporization that takes place only on the surface of the liquid Boiling – when a liquid changes to a gas BELOW its surface as well as above.
Boiling Point Boiling Point – temperature at which a liquid boils Each pure substance has a SPECIFIC boiling point. Use this link to collect the missing information below media/ChemicalInteractions/table/table.html media/ChemicalInteractions/table/table.html –Examples: B.P. of Water = 100°C (212°F) –B.P. of Nitrogen = °C ( °F) –B.P. of Silver = °C (3924 °F) –B.P. of Carbon = °C (7281 °F)
Boiling Point and Melting Point Melting point Boiling point
Solubility Maximum amount of a substance that can be dissolved in a liquid (at a specific temperature). Salt (NaCl) Water (H20) at 20°C
Solubility Solute – substance being dissolved Solvent – liquid substance that solute is dissolved into Salt (NaCl) Water (H20) at 20°C
Solubility Solute – ?????? Solvent – ????? Salt (NaCl) Water (H20) at 20°C Salt Water
Solubility can change Increased Temp = Increased Solubility Different substances have different solubility curves