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S-133. Write the formula for Palladium (IV) Oxide Calcium Fluoride Cadmium (II) Nitride Write the name for Al 2 S 3 Rb 3 P CrO 3. SPS2. Students will explore the nature of matter, its classifications, and its system for naming types of matter.
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S-133 • Write the formula for • Palladium (IV) Oxide • Calcium Fluoride • Cadmium (II) Nitride Write the name for • Al2S3 • Rb3P • CrO3
SPS2. Students will explore the nature of matter, its classifications, and its system for naming types of matter. Demonstrate the Law of Conservation of Matter in a chemical reaction. Apply the Law of Conservation of Matter by balancing the following types of chemical equations; Synthesis Decomposition Single Replacement Double Replacement Unit 7 Chemical Reaction
What is the law of conservation of mass? Why must chemical equations be balanced? Why do chemists use the mole? How can you calculate the mass of a reactant or product in a chemical reaction? 7.1 Describing Reactions
7.1 Describing Reactions What is the law of conservation of mass? • Chemical Equations • Reactants – the substances that are present before a reaction • Products – the substances present after a reaction is complete • Always given in the form Reactants Products • Example:Carbon + Oxygen Carbon Dioxide • Or C + O2 CO2
7.1 Describing Reactions What is the law of conservation of mass? • Writing Equations - Practice • Copper and Oxygen make Copper (II) Oxide • Magnesium and Hydrogen Chloride make Hydrogen and Magnesium Chloride • Ethylene (C2H4) burns with Oxygen to produce Carbon Dioxide and Water. • Hydrogen and Chlorine combine to make Hydrogen Chloride
7.1 Describing Reactions What is the law of conservation of mass? • Conservation of Mass • Mass is not created or destroyed in a chemical reaction • For practical purposes • Same types of atoms before and after a reaction • Same number of each type of atom before and after • Equations must show this • They are called balanced equations
S-134 • Write the formula for • Dinitrogen Trioxide • Copper (II) oxide • Dinitrogen Pentaoxide Write the name for • CCl4 • CrBr3 • Mo2O5
S-135 • Write the equation for a reaction of hydrogen sulfide with aluminum oxide to make aluminum sulfide and water.
7.1 Describing Reactions Why must chemical equations be balanced? • Balancing Equations • If an equation does not have the same elements on both sides, it is a false equation • Can not actually occur • Coefficient – a number placed in front of a substance in a chemical equation • Used to balance equations
7.1 Describing Reactions Why must chemical equations be balanced? • Balancing Equations - Steps • First write out the equation • Hydrogen and Oxygen make water becomes • H2 + O2 H2O • List the elements on each side H-2 H-2 O-2 O-1 • Add substances until both sides are equal
7.1 Describing Reactions Why must chemical equations be balanced? • Balancing Equations - Practice • Copper and Oxygen make Copper (II) Oxide • Magnesium and Hydrogen Chloride make Hydrogen and Magnesium Chloride • Ethylene (C2H4) burns with Oxygen to produce Carbon Dioxide and Water.
S-137 • Balance the following equations H2SO4 + Al(OH)3 Al2(SO4)3 + H2O
7.1 Describing Reactions Why do chemists use the mole? 18 Ar 39.95 Argon • Counting With Moles • A unit of measurement • Equals 6.02 x 1023 of anything • Used only to count atoms, molecules, formula unit • One mole of an element is equal to its atomic mass converted to grams (put a g beside the number)
7.1 Describing Reactions How can you calculate the mass of a reactant or product in a reaction? • Molar Mass • For an element equal to its atomic mass • For a compound • For each element – multiply the mass x the number of that element in the compound • Add the total
7.1 Describing Reactions How can you calculate the mass of a reactant or product in a reaction? • Molar Mass-Example • C2H4 • Carbon 12.01g x 2 = 24.02g • Hydrogen 1.01g x 4 = 4.04g • Total 28.06
7.1 Describing Reactions How can you calculate the mass of a reactant or product in a reaction? • Molar Mass-Example • Pb(OH)4
S-137 • What is the molar mass of Al2(SO4)3
What are the general types of chemical reactions? 7.2 Types of Reactions
Types of Reactions What are the general types of reactions? • Classifying Reactions • Describe how reactants interact to form products • Help to predict the products of reactions
Types of Reactions What are the general types of reactions? • Synthesis • Two or more substances react to form a single substance • Pattern A + B AB • Always has one product • Examples • 2Na + Cl2 2NaCl • 2H2 + O2 2H2O
Types of Reactions What are the general types of reactions? • Decomposition • One substance breaks apart into two or more products • Pattern AB A + B • Always has one reactant • Examples • CaCO3 CaO + CO2 • 2H2O 2H2 + O2
Types of Reactions What are the general types of reactions? • Single Replacement (Displacement) • A compound switches parts with an element • Pattern A + BC B + AC • Always has one element and one compound on each side • Examples • Cu + 2AgNO3 2Ag + Cu(NO3)2 • 2K + 2H2O H2 + KOH
Types of Reactions What are the general types of reactions? • Double Replacement (Displacement) • Two compounds switch parts • Often results in the formation of a precipitate • Pattern AB + CD AD + CB • Always has two compounds on each side • Examples • Pb(NO3)2 + 2KI PbI2 + 2KNO3 • CaCO3 + 2HCl CaCl2 + H2CO3
Types of Reactions What are the general types of reactions? • Combustion • Reacts rapidly with oxygen • Everything combines with oxygen • Pattern AB + O2 AO + BO • Always has oxygen as a reactant • Examples • CH4 + O2 CO2 + 2H2O • 2Ca + O2 2CaO
S-138 • Balance the following reactions and tell what type(s) they are. • Pb(NO3)2 + HCl PbCl2 + HNO3 • Ca + HCl CaCl2 + H2
S-139 • Write out the reaction, then balance it and tell what type it is. • Mercury reacts with oxygen to form Mercury (II) Oxide