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Classification of Chemical Reactions

Explore the language, classifications, and equations of chemical reactions. Learn about elements, reactants, products, and reaction conditions. Discover decomposition, combination, single and double replacement, combustion reactions, and how to balance chemical equations.

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Classification of Chemical Reactions

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  1. Classification of Chemical Reactions Physical Science Sleevi

  2. Chemical Reactions • The process of chemical change • Substances are transformed to different substances • Indicators: • formation of precipitate • unexpected color change • evolution of gas • release or absorption of energy

  3. Chemical Reaction A + B  C + D

  4. The Language of Reactions • Reactant • starting material of a chemical reaction • appears to the left of the reaction arrow • Product • substance formed in chemical reaction • appears to the right of the reaction arrow • Reaction Conditions • solvent, energy applied, catalysts, etc.

  5. Chemical Equations 2Na (s) + 2H2O (l) H2(g) + 2NaOH (aq) s = solid l = liquid g = gas aq = aqueous solution

  6. Reactions Conditions Heat = Δ Electricity = e- Light = hv or γ Catalyst = Pt Specific Temperature = 50oC

  7. Chemical Reaction • Calcium carbonate is heated strongly and carbon dioxide gas is driven off, leaving a residue of calcium oxide. CaCO3(s) CO2(g) + CaO (s)

  8. Descriptions of Chemical Reactions • Identify reactants by language such as: • is heated strongly • decomposes • is combined with • when added to • reacts with • neutralizes • x is converted to…

  9. Descriptions of Chemical Reactions • Identify products by language such as: • is formed • produced • precipitates • is given off • is evolved • leaving a residue of • is converted to y

  10. Writing Chemical Equations from Descriptions of Reactions • Identify reactants and products • Write correct chemical formulas • Identify and document states of each substance • Record reaction conditions (if given) above/below reaction arrow

  11. Elements as Diatomic Molecules • Seven elements occur as diatomic molecules

  12. Examples • Bubbling chlorine gas through a solution of potassium iodide gives elemental iodine and a solution of potassium chloride. • Solid silver oxide can be heated to give silver and oxygen gas.

  13. Balancing Chemical Equations • Conservation of matter • Conservation of mass • Rearrangement of atoms • Same number and type of atoms on each side of the equation

  14. Balancing Chemical Equations • Write the unbalanced equation that describes the reaction (with correct formulas) • Use coefficients to balance the number of atoms of each element on both sides • Start with the elements that appear only once on each side of the equation

  15. Balancing Chemical Equations • For elements found in two substances on ONE side of the equation: sum the number of atoms on that side of the equation • Reduce coefficients to lowest whole number ration • Double check!

  16. Driving Forces for Chemical Reactions • Formation of a solid • Formation of water • Formation of a gas • Transfer of electrons (Reactions are spontaneous if the products are favored)

  17. Types of Chemical Reactions • Decomposition • Combination • Single Replacement • Double Replacement • Complete Combustion of Hydrocarbons

  18. Decomposition Reactions • Single substance broken down into two or more simpler substances • Reactant must be compound • Products can be elements or compounds • Require input of energy to occur (light, heat, electricity) A  B + C

  19. Decomposition Reactions 2H2O  2H2 + O2 2H2O2  2H2O + O2 K2CO3  K2O + CO2 2KOH  K2O + H2O

  20. Decomposition Reactions • Binary compound decomposes to elements • Metal carbonate decomposes to metal oxide and carbon dioxide • Base decomposes to metal oxide and water

  21. Combination Reactions • Two or more substances form one product • Reactants can be elements or compounds • Product is always a compound A + B  C

  22. Combination Reactions Na (s) + Cl2 (g) NaCl (s) SO3(g) + H2O (l)  H2SO4(aq) K2O (s) + H2O (l)  KOH (aq)

  23. Combination Reactions • Two elements combine to form a binary compound • metal + nonmetal  ionic compound • nonmetal + nonmetal  molecular compound • Nonmetal oxide + water  acid • Metal oxide + water  base

  24. Single Replacement Reactions • Substitution reactions in which an element replaces the element in an ionic compound • metal replaces metal • halogen replaces halogen • metal replaces hydrogen (in an acid) • Not all reactions occur A + BX  AX + B

  25. Single Replacement Reactions Mg + ZnCl2  MgCl2 + Zn Fe + CuSO4  FeSO4 + Cu Na + H2O  NaOH + H2 F2 + KCl  KF + Cl2

  26. Single Replacement Reactions • Activity Series provides reference for which single replacement reactions occur Note: All examples we will use are reactions that occur. You will not need to use the activity series to determine whether or not a reaction occurs

  27. Double Replacement Reactions • Exchange of positive ions between two compounds • Usually occur between ionic compounds in aqueous solutions • When reaction occurs • a precipitate forms • water or other molecular compound is formed • evolution of a gas

  28. Double Replacement Reactions Na2S (aq) + Cd(NO3)2(aq) NaNO3 (aq) + CdS (s) NaCN (aq) + H2SO4(aq)  HCN (g) + Na2SO4(aq) AgNO3(aq) + KCl (aq) AgCl (s) + KNO3(aq) NaOH (aq) + H2SO4(aq) Na2SO4(aq) + H2O (l)

  29. Combustion Reactions • Hydrocarbon burns in the presence of oxygen • For complete combustion the products are ALWAYS carbon dioxide and water

  30. Combustion Reactions CH4 + O2  CO2 +H2O C6H12O6+ O2  CO2 +H2O C6H6 + O2  CO2 +H2O

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