chemistry : chemical processes
DESCRIPTION
Chemistry : Chemical Processes. WHMIS. Workplace Hazardous Materials Information System Why is it important? . WHMIS Symbols. CLASS A: COMPRESSED GAS This class includes compressed gases, dissolved gases, and gases liquefied by compression or refrigeration. . - PowerPoint PPT PresentationTRANSCRIPT
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Chemistry : Chemical Processes
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WHMIS Workplace Hazardous Materials
Information System
Why is it important?
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WHMIS SymbolsCLASS A: COMPRESSED GASThis class includes compressed gases, dissolved gases, and gases liquefied by compression or refrigeration.
CLASS C: OXIDIZING MATERIALThese materials increase the risk of fire if they come in contact with flammable or combustible materials.
CLASS B: FLAMMABLE AND COMBUSTIBLE MATERIALThis class includes solids, liquids, and gases capable of catching fire in the presence of a spark or open flame under normal working conditions.
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WHMIS SymbolsCLASS D: POISONOUS AND INFECTIOUS MATERIALDivision 1: Materials Causing Immediate and Serious Toxic EffectsThese materials can cause death or immediate injury when a person is exposed to small amounts. Examples: sodium cyanide, hydrogen sulphideCLASS D: POISONOUS AND INFECTIOUS MATERIALDivision 2: Materials Causing Other Toxic EFFECTSThese materials can cause life-threatening and serious long-term health problems as well as less severe but immediate reactions in a person who is repeatedly exposed to small amounts. CLASS D: POISONOUS AND INFECTIOUS MATERIALDivision 3: Biohazardous Infectious MATERIALThese materials contain an organism that has been shown to cause disease or to be a probable cause of disease in persons or animals.
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WHMIS Symbols
CLASS E: CORROSIVE MATERIALThis class includes caustic and acid materials that can destroy the skin or eat through metals. Examples: sodium hydroxide, hydrochloric acid, nitric acid
CLASS F: DANGEROUSLY REACTIVE MATERIALThese products may self-react dangerously (for example, they may explode) upon standing or when exposed to physical shock or to increased pressure or temperature, or they emit toxic gases when exposed to water.
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What is Chemistry and Matter?
Chemistry is the study of matter, its properties and its changes or transformations.
Matter is anything that has mass and takes up space.
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Classification of Matter
Matter
Pure Substances
Compounds Elements
Mixtures
Solutions(Homogene
ous Mixtures)
Heterogeneous
Mixtures
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Mixtures
A mixture is a substance made by combining two or more different materials in such a way that no chemical reaction occurs.
Mixtures can be separated by physical means. Ex. Party Mix, boiling Kool Aid
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Homogenous Mixture (Solution) Mixture where the two different
substances that are combined together are mixed very well.
Any portion of the sample has the same properties and composition.
Example: Salt Water Milk
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Heterogeneous Mixture
Mixture where the different parts or each substance can be separated physically.
Different parts are visible.
Example: Toppings on a Pizza Chocolate chip cookie Salad
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Pure Substances
How do we know that a sample of matter is a pure substance?
A pure substance is made up of all the same particles.
A pure substance also has constant properties. Example: pure water, aluminum foil.
Pure substances can be either elements or compounds.
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Compounds
Compounds are pure substances that contain two or more different elements in a fixed proportion.
Example: Water H2O = 2 parts hydrogen to
1 part oxygen.
Salt NaCl = 1 sodium to 1 clorine
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Elements
Elements are pure substances that cannot be broken down into simpler substances.
Elements contain only one kind of atom.
Example: Oxygen, hydrogen, iron, etc.
( anything on the periodic table )
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Review
Homogeneous Mixture Heterogeneous Mixture Element Compound Pure Substance Mixture
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Classify the following as:a) pure or mixture
b)element, compound, heterogeneous or homogeneous
mixture
Salt Sugar Wood Rock Water Milk Plastic Glass Mercury
Apple Juice Syrup Gold Air Oxygen Silver Cookies Cake Sand
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States of Matter
http://www.harcourtschool.com/activity/states_of_matter/
There are 3 states of matter: Solid, Liquid and Gas.
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Properties of Matter: Physical and Chemical
A Physical Property is a characteristic of a substance. Usually these are properties that we can detect with our senses.
Changing the size or amount of the substance does not change the physical properties.
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Physical Properties Color – red, green, white, etc.
Texture – smooth, fine, coarse.
Taste – sour, sweet, salty.
Odour – what smell does the substance have?
States of matter at room temperature: - solid, liquid, gas.
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Physical Properties
Malleable is the ability of a solid to be hammered or bent into different shapes. Aluminum foil is malleable. Gold is malleable since it can be hammered into thin sheets.
Hardness – the measure of the resistance of a solid to being scratched or dented
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Physical Properties
Ductility – The ability to stretch a substance into a wire.
Viscosity – the ability of a substance to flow or pour.
Luster – How shiny is the substance?
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Physical Properties
Boiling Point – the temperature at which a liquid changes state and becomes a gas.
Melting Point – the temperature at which a solid changes state and becomes liquid.
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List the Physical Properties
Baking soda is:
solid at room temperature
white in color
crystal form
dissolves easily in water.
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Chemical Properties A chemical property is a behaviour that
occurs when a substance changes to a new substance.
For example: Is the substance combustible? Does the substance have a reaction with
acid? Does the substance react with water?
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Physical Changes
1. In a physical change, the substance involved remains the same substance, even though it may change state or form.
2. Can be undone quite easily.
Key: No new substance is created.
Examples: melting ice, freezing water, dissolving salt into water, breaking a stick.
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Chemical Changes
1. In a chemical change, the original substance is changed into one or more different substances that have different properties.
2. Not easily undone – almost impossible
Key: New substance almost always formed.
Examples: burning wood, baking a cake, digesting food
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Clues that a chemical change has occurred
A new color appears.
Heat or light is given off.
Bubbles of gas are formed.
The change is difficult to reverse.
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Physical Changes
Here are some examples of physical changes:
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Melting popsicle
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Broken Twig
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Here are some other examples of chemical changes:
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Raw egg becomes cooked egg
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Cake mix becomes cake
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Steel becomes rust
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Your Turn
Chemical or Physical Changes
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Chemical or Physical ?
Cutting a piece of wood.
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Chemical or Physical ?
Chewing of food
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Chemical or Physical ?
Rusting Nail
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Chemical or Physical ?
Ice Melting
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Chemical or Physical ?
Burning a Match
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Chemical or Physical ?
Stretching a Rubber Band
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Chemical or Physical ?
Breaking a Stick
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Chemical or Physical ?
Tarnishing Silver
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Chemical or Physical ?
Ripening Tomatoes
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Chemical or Physical ?
Water Boiling
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The Atom
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taken from: http//:education.jlab.org/atomtour/listofparticles.html
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Electrons
Negatively charged ( - )
Almost have no mass
Located around the outside of the nucleus
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Proton
Same mass as neutrons
Positively charged (+)
Located in center of atom (nucleus)
Number of protons in an atom is equal to the elements atomic number.
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Neutron Same mass as proton
No charge
Located in nucleus
Number per atom is based on the following formula:
#Neutrons = Atomic Mass – Atomic Number
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Bohr’s Planetary Model of the Atom
Bohr suggested that:
Electrons move around the nucleus in circular paths called orbits, like planets around the sun.
The order of filling of electrons in the first
four orbits is 2, 8, 8, 2.
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Bohr - Rutherford Diagrams1. Find the # of protons, neutrons, and electrons2. Draw protons (p+), (n0) in circle (i.e. “nucleus”)3. Draw electrons around in shells - 2, 8, 8, 2 are
the numbers of electrons allowed in the rings for the first 20 elements.
2 p+
2 n0
He
3 p+
4 n0
Li
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Molecules
A molecule is formed when 2 or more atoms join together chemically. Ex. H2, O2, N2
A compound is a molecule that contains at least 2 different elements. Ex. H2O, CO2
All compounds are molecules, but not all molecules are compounds.
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The Periodic Table
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Elements are arranged to help us to explain and predict physical and chemical properties.
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Period – elements in the same row; rows are numbered from top to bottom
Family – elements in the same column; these elements have similar properties
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Elemental Families Tend to have similar physical and chemical properties. Found in same vertical column.
1. Alkali Metals – shiny, silvery metals, compounds soluble in water
2. Alkaline Earth Metals – shiny, silvery metal, compounds insoluble in water
3. Transition Metals – center columns
4. Halogens – nonmetals, react readily with alkali metals
5. Noble Gases - nonreactive
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Alkali Metals
The elements that occupy the far left column of the periodic table are called Alkali Metals.
Called Group 1 elements
These elements are extremely reactive.
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Alkali Earth Metals
Found in group 2.
Form compounds that are often insoluble in water.
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Halogens
Halogens occupy the 17th column of the periodic table. ( F, Cl, Br, I, At)
These elements are the most reactive non-metals.
All halogens are poisonous elements that react readily with sodium and other alkali metals.
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Metalloids
Metalloids are elements that possess both metallic and nonmetallic properties.
They are found in different groups on the far right side of the periodic table.
Examples: Silicon, boron, germanium, arsenic, selenium, antimony, tellurium, polonium, and astatine are all metalloids.
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Noble Gases
Noble Gases are the elements that occupy the far right column of the periodic table.
( He, Ne, Ar, Kr, Xe, Rn )
Also Called inert gases because Noble gases generally do not form compounds.
All gases at room temperature.
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Properties of Metals and Non Metals
METALS
Shiny Malleable Conductors Most of them react
with acid Mostly solids
NON METALS
Dull Brittle Mostly insulators Do not react with acid Solids, liquids and
gases at room temperature.
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Ionic Compounds
Metals and non-metals combine to form ionic compounds by transferring electrons.
Metal atoms lose electrons to form positive ions.
Non-metal atoms gain electrons to form negative ions.