Download - Elements, Compounds, And Mixtures
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Elements
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Elements
▫An element is a pure substance that cannot be separated into simpler substances by physical or chemical means
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▫A pure substance is a substance in which there is only one type of particle.
▫Elements are pure substances so each element only contains one type of particle.
▫Example: Every particle in a 5g nugget of the element gold is like every other particle of gold
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•Are particles of a pure substance the same no matter where they are found?
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Every element has a unique set of properties
▫Each element can be identified by its properties.▫Each element has its own characteristic properties.
▫Characteristic properties: properties that don’t depend on the amount of material present in a sample of the element
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Characteristic Properties
▫Physical PropertiesBoiling PointMelting PointDensity
▫Chemical PropertiesReactivity with different substances
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Can you use: density, conductivity, reactivity, melting point to identify each element?
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▫Elements are grouped into categories based on the properties they shareExample: Iron, nickel, and cobalt are all shiny and conduct heat and electrical current. They’ve been placed into a large group called metals with similar elements.
▫If you know the category, you know the properties.
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Elements
Metals Nonmetals Metalloids
are divided into
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Major Categories of Elements
1. Metals: shiny, good conductors of thermal energy and electric current, malleable (can be hammered into thing sheets) and ductile (can be drawn into thin wires)
Elements in this categoryIron, Tin, Lead, Copper
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2. Nonmetals: dull, poor conductors of thermal energy and electric current, brittle and unmalleable
Elements in this categoryNeon, Bromine, Sulfur
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3. Metalloids: have properties of both
metals and nonmetals, some are shiny while others are dull, some are good conductors while others are not
Elements in this categorySilicon, Antimony, Boron
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Think/Pair/Share▫What is a pure substance?
▫List 3 properties that can be used to identify and classify elements.
▫Which category of element would be the least appropriate choice for making a container that can be dropped without shattering? Explain why.
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Compounds
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A,B,C,D,E,F,G,H,I,
J,K,L,M,N,O,P,Q,R,
S,T,U,V,W,X,Y,Z
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Compounds
▫Pure substance composed of two or more elements that are chemically combined.
▫In order for elements to combine, they must react, or undergo a chemical change, with one another.
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Familiar Compounds▫Table Salt: Sodium and Chlorine
▫Water: Hydrogen and Oxygen
▫Sugar: Carbon, Hydrogen, and Oxygen
▫Carbon Dioxide: Carbon and Oxygen
▫Baking Soda: Sodium, Hydrogen, Carbon, and Oxygen
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Compounds Have Unique Sets of Properties
▫Physical properties▫Chemical properties
▫Compounds have different properties from the elements that form it.Ex: Table salt is made of sodium (which reacts violently with water) and chlorine (which is poisonous).
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Compounds Can Be Broken Down into Simpler Substances
▫Either broken down into elements through chemical changes…
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▫Or undergo chemical changes and form simpler compounds
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Compounds Cannot Be Broken Down by Physical Changes
▫Only way to break down a compound is through a CHEMICAL change.
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Think/Pair/Share
▫How are compounds and elements alike?
▫How are they different?
▫A jar contains samples of the elements carbon and oxygen. Does the jar contain a compound? Explain.
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Mixtures
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▫Mixture: combination of two or more substances that are not chemically combined
▫Two or more materials form a mixture if they do not react to form a compound
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▫Substance in a mixture keep their identities.
▫Mixtures can be physically separated.
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Solutions
▫Solution: mixture that appears to be a single substance but is composed of particles of two or more substances that are distributed evenly amongst each other
▫Also described as a homogenous mixture
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▫Process in which particles separate and spread evenly throughout a mixture is known as dissolving.
▫The solute is the substance that is dissolved, and the solvent is the substance in which the solute is dissolved.
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▫Salt waterSolute: Solvent:
SaltWater
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Examples of Different States in Solutions
Gas in gas Dry air (oxygen in nitrogen)
Gas in liquid Soft drinks (carbon dioxide in water)
Liquid in liquid Antifreeze (alcohol in water)
Solid in liquid Salt water (salt in water)
Solid in solid Brass (zinc in copper)
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▫Particles in solutions are so small that they never settle out, nor can they be filtered out, and they don’t scatter or block light.
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Concentration: How much solute is dissolved?
▫Concentration: measure of the amount of solute dissolved in a solvent
▫Knowing the exact concentration of a solution is very important in chemistry and medicine because using the wrong concentration can be dangerous.
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▫Concentrated
▫Dilute
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Math Break•Many solutions are colorless so you can’t compare
their concentrations by looking at the color. You must calculate the concentration. One way to calculate the concentration of a liquid solution is to divide the grams of solute by the milliliters of solvent.
•Example: Concentration of a solution in which 35 g of salt is dissolved in 175 mL of water is
35 g salt175 mL
water
= 0.2 g/mL
Calculate the concentration of Solution A which has 55 g of sugar dissolved in 500 mL of water.
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Math Break
▫Calculate the concentration of Solution B which has 36 g of sugar in 144 mL of water.
55 g sugar500 mL
water
= 0.11 g/mL in Solution A
36 g sugar144 mL
water
= 0.25 g/mL in Solution B
Which solution is the more dilute one?
Which is the more concentrated?
Solution A
Solution B
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What affects how quickly solids dissolve in liquids?
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Suspensions
▫Mixture in which particles of a material are dispersed throughout a liquid or gas but are large enough that they settle out.
▫A suspension can be separated by passing it through a filter
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Application▫Many medicines, such as remedies for upset stomachs, are suspensions. The directions on the label instruct you to shake the bottle well before use.
▫Why must you shake the bottle?
▫What problem could arise if you don’t?
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Biology Connection
▫Blood is a suspension. The suspended particles, mainly red blood cells, white blood cells, and platelets, are actually suspended in a solution called plasma. Plasma is 90% water and 10% dissolved solutes including sugar, vitamins, and proteins.
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Colloids
▫Mixture in which the particles are dispersed throughout but are not heavy enough to settle out.▫Colloids you might use often include: milk, mayonnaise, stick deodorant, gelatin, and whipped cream
▫Colloids cannot be separated by filtration.
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Think/Pair/Share▫What are 2 methods of making a solute dissolve faster?
▫Identify the solute and solvent in a solution made from 15 mL of oxygen and 5 mL of helium.