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Agenda: 3/27 Objective: to predict products in a chemical reaction Warm-up: Formative Assessment Chemical Reactions.

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Presentation on theme: "Agenda: 3/27 Objective: to predict products in a chemical reaction Warm-up: Formative Assessment Chemical Reactions."— Presentation transcript:

1 Agenda: 3/27 Objective: to predict products in a chemical reaction Warm-up: Formative Assessment Chemical Reactions

2 Objective: To predict what a chemical reaction will produce What will we learn? Balancing equations Types of reactions When reactions will take place

3 Objective: To predict what a chemical reaction will produce What do we need to know? Names and formulas Indicators of chemical change Moles

4 CHEMICAL REACTIONS Reactants: Zn + I 2 Product: Zn I 2 ")! What are the indicators that there is a chemical reaction?

5 What is a chemical reaction? Atoms are combined into compounds or separated and then rearranged. New substances must be formed New physical and chemical properties Energy is always involved

6 Notes: 1. Chemical Reactions Process in which substances (reactants) change into 1 or more different substances (products) Reactants → Products Yields Products have different physical and chemical properties than the reactants. Explain why in your notes:

7 Notes: Energy is always involved: - In exothermic reactions, energy is released. - In endothermic reactions, energy is added (absorbed) Energy change (∆H = change in heat) is shown 2 ways: Exothermic: ∆H = - or shown as a product Endothermic: ∆H= + or shown as a reactant

8 Notes: Chemical Change must take place. Indicators of chemical change: 1: change in temperature 2: producing bubbles (gas) without boiling 3: change in color 4: a precipitate is formed (solid from 2 liquids)

9 Introduction: Chemical Equations Their Job: Way to represent the relative amounts of reactants and products and their relative amounts in a reaction. 4 Al (s) + 3 O 2 (g) ---> 2 Al 2 O 3 (s) The numbers in the front are called coefficients. ____________ ____________ The letters (s), (g), and (l) are the physical states of compounds.

10 Word Equation for the reaction: The carbon reacts with oxygen to yield carbon dioxide. Chemical equation: C + O 2  CO 2 This contains the same information as the English sentence but has quantitative meaning as well. The charcoal used in a grill is basically carbon.

11 Notes: Chemical Equations Way to represent the relative amounts of reactant and product. (A recipe) Satisfies the Law of Conservation of Matter (Mass) Atoms are not created nor destroyed in a chemical reaction (just re-arranged) Mass is neither created nor destroyed in a chemical reaction. There must be the same amount of mass on the product side (after the reaction) as the reactant side (before the reaction.)

12 Solid ___ Liquid ____ Gas ___ Aqueous solution (aq) Reversible reactions Reactants are heated Catalyst H 2 SO 4 Escaping gas (  ) Notes: Symbols Used in Equations

13 Because of the principle of the conservation of matter, an equation must be balanced. It must have the same number of atoms of the same kind on both sides. Introduction: Chemical Equations Lavoisier, 1788

14 BALANCING CHEMICAL REACTIONS

15 Balancing Equations ___ Al(s) + ___ Br 2 (l) ---> ___ Al 2 Br 6 (s)

16 not When balancing a chemical reaction Coefficients are added in front of a compounds to balance the reaction, but you may not change the subscripts. Changing the subscripts changes the compound. Important in Balancing Equations

17 Subscripts vs. Coefficients The subscripts shows: ? The subscripts shows: ? The coefficient shows: ? The coefficient shows: ?

18 Why balance chemical reactions? Law of Conservation of Matter: matter is neither created nor destroyed in __ ________ _________. In a chemical reaction, atoms are combined, separated and/or rearranged. Not atoms are lost or gained in a chemical reaction.

19 In a balanced reaction Chemical reactions are shown with symbols (formulas in an equation) Starting materials = reactants Produces, yields = arrow End materials = products # atoms of reactants= # atoms of products

20 Steps to balance equations: Start with correct formulas for the compounds. Never, never change the formula (subscripts) Put a box around the formulas as a reminder. Count how many atoms of each type of element on each side of the equation. Use multipliers (called coefficients) in front of the formulas on each side of the equation until the number on each side matches up.

21 Notes: Methane and oxygen produces carbon dioxide and water. 1. Correct formulas and symbols. Put box around each formula. 2. Count the number of atoms on both sides of the equation Methane + oxygen carbon dioxide + water

22 Notes: Methane and oxygen produces carbon dioxide and water. 3. Balance the equation using coefficients. (Coefficients are multipliers in front of the compounds) 4. Use the smallest whole number possible.

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24 Examples: Copper and silver (I) nitrate combine to yield copper (II) nitrate and silver.

25 Examples The reactants magnesium and aluminum chloride produce aluminum and magnesium chloride.

26 Examples for your notes: Carbon reacts with oxygen to produce carbon dioxide.

27 Practice balancing equations ____ Ca + ____ O ₂  ____ CaO ____ Br ₂ + ____ LiF  ____ LiBr + ____ F ₂ ____ V + ____ ZnBr ₂  ____ VBr ₃ + ____ Zn

28 ____ Li + ____ Pb(OH) ₂  ____ Pb + ____ LiOH ____ C ₄ H ₈ + ____ O ₂  ____ CO ₂ + ____ H ₂ O ____ Ga(OH) ₃ + ____ KF  ____ KOH + ____ GaF ₃

29 Chemical Equations 4 Al(s) + 3 O 2 (g) ---> 2 Al 2 O 3 (s) This equation means 4 Al atoms + 3 O 2 molecules ---produces---> 2 molecules of Al 2 O 3 2 molecules of Al 2 O 3 AND/OR AND/OR 4 moles of Al + 3 moles of O 2 ---produces---> 2 moles of Al 2 O 3 2 moles of Al 2 O 3

30 Balancing Equations ____C 3 H 8 (g) + _____ O 2 (g) ----> _____CO 2 (g) + _____ H 2 O(g) ____B 4 H 10 (g) + _____ O 2 (g) ----> ___ B 2 O 3 (g) + _____ H 2 O(g)

31 Balancing Equations Sodium phosphate + iron (III) oxide  sodium oxide + iron (III) phosphate Na 3 PO 4 + Fe 2 O 3 ----> Na 2 O + FePO 4 Na 3 PO 4 + Fe 2 O 3 ----> Na 2 O + FePO 4

32 ____ P + O 2 → P 4 O 10 ____ Mg + O 2 → MgO ____ HgO → Hg + O 2 ____ Al 2 O 3 → Al + O 2 ____ Cl 2 + NaBr → NaCl + Br 2 ____ H 2 + N 2 → NH 3 Balancing chemical reactions

33 ____ Na + Br 2 → NaBr ____ CuCl 2 + H 2 S → CuS + HCl ____ HgO + Cl 2 → HgCl + O 2 ____ C + H 2 → CH 4 ____ KClO 3 → KCl + O 2 ____ S 8 + F 2 → SF 6 ____ BaCl 2 + Na 2 SO 4 → NaCl + BaSO 4


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