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Introduction to Matter. What is Matter?. Matter is anything that has mass and takes up space. Mass – the quantity of matter an object has Volume – the amount of space an object takes up Weight – the pull of gravity on an object
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What is Matter? • Matter is anything that has mass and takes up space. • Mass – the quantity of matter an object has • Volume – the amount of space an object takes up • Weight – the pull of gravity on an object • Challenge Question: Can the weight of an object change without changing its mass? • Matter is organized into various types of substances or mixtures
Classification of Matter • Substance – a single kind of matter with a specific composition and properties • Element – a substance that is made up of one type of atom • Atom – the basic particle from which all common matter is made • Compound – a substance made of two or more different types of atoms/elements that are chemically bonded in a set ratio • Molecule – groups of two or more atoms held together by chemical bonds. • Chemical bond – the force of attraction between two atoms • Chemical Formula – the elemental ratio of a compound (examples: H2O, NaCl, & O2 ) • All compounds are also molecules • Some molecules can also be pure elements
Mixtures • Mixture – a group of two or more substances • Substances in a mixture retain their individual properties • There are two types of mixtures: • Homogeneous Mixtures – Evenly mixed substances (Examples: Sweet Tea, Brass, Air, etc..) • Heterogeneous Mixtures – Unevenly mixed substances (Examples: Dirt, Salad, Legos, etc..)
MATTER yes no Can it be physically separated? MIXTURE SUBSTANCE yes no yes no Is the composition uniform? Can it be chemically decomposed? Homogeneous Mixture (solution) Heterogeneous Mixture Compound Element Colloids Suspensions Courtesy Christy Johannesson www.nisd.net/communicationsarts/pages/chem
Examples of Pure Substances Elemental Substances Compound Substances Water (H2O) Salt (NaCl) Sugar (C12H22O11) Baking Soda (NaHCO3) Hydrogen Peroxide (H2O2) Saltpeter (KNO3) • Gold (Au) • Aluminum (Al) • Graphite (C) • Neon Gas (Ne) • Oxygen Gas (O2) • Diamond (C) • Ozone (O3)
Examples of Mixtures Homogeneous Mixtures Heterogeneous Mixtures Salad Sand Trail Mix Italian Dressing • Tea • Air • Saltwater • Rootbeer • Coffee • Brass
What is Chemistry? • Chemistry is the study of the properties of matter and how matter changes. • These properties and changes can vary depending on its composition. • All matter has two kinds of properties: • Physical Properties – the characteristics of a substance that can be observed w/o changing it into another substance. • Chemical Properties – the characteristics of a substance that describes its ability to change into different substances.
Measuring Matter • Matter is measured by using a number scientific instruments • Weight • The weight of an object is typically measured using spring scales • The International System of Units(SI) for weight is Newtons (N) • Most bathroom scales are really a type of spring scale that has already converted Newtons to pounds for your convenience. • Mass • Since weight varies from planet to planet, triple-beam balances can measure the mass of an object regardless of location • The SI unit for mass is kilograms (kg), but grams (g) are also used • 1kg = 1000 g • Volume • Volume can be measured by using a graduated cylinder • It can also be calculated by multiplying the height x width x length • The SI unit for volume is liters (L), but milliliters (mL) are also used • 1L = 1000 mL
Density • Density relates to the mass of an object in a given volume • Often, density is expressed as the number of grams in one cubic centimeter or grams per milliliter • The density of water at room temperature is 1g/cm³ or 1g/mL • 1 cm³ = 1 mL • The densities of pure substances are typically identical, regardless of amount (ex:Archimedes & the gold crown) • Examples: • Fresh Water = 1.0 g/mL Saltwater = 1.02 g/mL • Pure Gold = 19.3 g/mL Iron = 7.9 g/mL • The density of any object can be calculated using the following formula: Density = mass/volume (D=m/v)
Changes in Matter • Matter can change either physically or chemically. • Physical Change – any change that alters the form or appearance of matter, but doesn’t turn the substance into another substance • Examples: • Changes in state • Change in shape or form (dissolving, filtering, breaking, bending, distilling, crushing, etc.)
Chemical Change • Unlike physical changes, a chemical change produces new substances with properties different than the original substance • Examples: • Combustion • Electrolysis • Oxidation • Tarnishing
Conservation of Mass • Previously, scientists believed that matter could be created or destroyed via physical or chemical change • In the 1770’s, Antonine Lavoisier was the first person to experimentally prove that mass is always conserved regardless of the physical or chemical change. • This concept is known as the Law of Conservation of Mass • This law will later be modified to include the conservation of energy (E=mc²)
Energy & Matter • Like matter, energy is never created nor destroyed. It can only be transformed into something else. • Energyis the ability to do work or cause change • There are six types of energy that are related to changes in matter: • Thermal – the total energy of all particles in an object • Chemical – energy stored in the chemical bonds between atoms • Radiant/Electromagnetic – energy related to the movement of light, electromagnetic waves, or particles • Electrical – energy of charged particles moving from one place to another • Nuclear – energy released when atoms are split or fused together • Mechanical – energy related to the motion of an object
Thermal Energy • Thermal energy is the total energy of all the particles in an object • Thermal energy always flows from warmer matter to cooler matter • When change occurs b/c thermal energy is absorbed by an object, it is called an endothermic change. (ex: melting ice) • When change occurs b/c thermal energy is released from an object, it is called an exothermic change. (ex: combustion)
Mechanical Energy • Mechanical energy is the energy related to the motion of an object. • There are two types of mechanical energy: • Potential Energy (PE) – the energy an object has due to its current state or position • Kinetic Energy (KE) – the energy of matter in motion
Changes in Energy • Every chemical or physical change in matter includes a change in energy • During a chemical change, energy can be transformed into any other type of energy • Examples: • Photosynthesis turns radiant energy into chemical energy • Microwaves use radiant energy to increase the thermal energy of food, which is a form of chemical energy • Lights turn electrical energy into radiant & thermal energy • Fire turns chemical energy into radiant & thermal energy • A roller coaster going down a hill turns potential energy (PE) into kinetic energy (KE)
Create your own Energy Chain • Draw an illustration of a chain of energy as it changes from object to object. Label the different types of energy at each part of the chain.