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Chemical Reactions
Chemical Reactions and Enzymes
• What does a chemical formula tell you? ________________________
____________________________________Draw and label a chemical formula:
CO2 + H2O H2CO3
symbols, states, conditions, balanced
Reactants Products
Chemical Reactions and Enzymes
chemical reaction: process that changes one set of compounds (reactants) into another set of compounds (products)A. example:
wood + oxygen carbon dioxide + water + energy
Reactants Products
How many molecules are in a chemical formula/equation? Photosynthesis:
Put a box around the products and circle reactants
carbon dioxide + water glucose + oxygen
Reactants Products
chemical equation:
CO2 + H2O C6H12O6 + O2
Reactants Products
B. example:
C. Conservation of matter: During a chemical reaction, atoms are not created or destroyed – just rearranged. Therefore, chemical equations must be balanced so there is the same number of atoms on both sides of the equation.chemical equation:
CO2 + H2O C6H12O6 + O2
balanced chemical equation
6CO2 + 6H2O C6H12O6 + 6O2
Using the Equation for Wood Burning: Answer the questionsWrite this equation down!
• C6H12O6 + 6O2 6CO2 + 6H2O
C 1)How many molecules are on the: • Reactants side
• 7
• Products Side• 12
• What are the names of the molecules: • Glucose and Oxygen• Carbon Dioxide and water
C6H12O6 + 6O2 6CO2 + 6H2O
C. 2) How many atoms are on the:Reactants side:
• 6 C, 18 O, 12 H• Total = 36
• Products Side: • 6 C, 18 O, 12 H• Total = 36This demonstrates the conservation of Matter !
C6H12O6 + 6O2 6CO2 + 6H2O
C. 3) How many elements are on the:
• Reactant Side:• 3
• Product Side:• 3
• What are the elements?• Carbon• Hydrogen• Oxygen
C6H12O6 + 6O2 6CO2 + 6H2O
Apply what you’ve LEARNED
4.) 2 H2O2 2H2O + O2
• # of reactant molecules: 2• # of product molecules: 3• a.) What are the molecules:
• Hydrogen Peroxide• Water• Oxygen
Apply what you’ve LEARNED
5.) 2 H2O2 2H2O + O2
• # of reactant atoms: 8• (4 H and 4 O)
• # of product atoms: 8• (4H, 2O, 2O)
Apply what you’ve LEARNED
6.) 2 H2O2 2H2O + O2
• # of reactant elements: 2• # of product elements: 2• What are the elements:
• Hydrogen• Oxygen
II. Speed of Reactions
• The speed of a reaction depends on whether is absorbs or releases energy.
Chemical reactions that Release energy….
• Often Occur Spontaneously (without warning)• Example: Explosion gun powder or
fireworks
Chemical reactions that Absorb energy….
• Will not occur without a source of energy. • Example: Instant Ice Packs or
Photosynthesis.
Chemical Reactions and EnzymesIII. Label the graph:
Reactants
Products
Products
Activation Energy
Activation energy
Energy Absorbing Energy Releasing
Reactants
A. All reactions require some energy to start: activation energy.
Example: if some reactions that release energy did not require activation energy, what could happen to the pages of your text book as you sit here reading?
They could spontaneously combust into flames.
B. catalyst: substance that speeds up a chemical reaction by lowering the activation energy
Catalysts found in living things are called enzymes
C. Enzymes
•provide a site where the reactants of a chemical reaction can be brought together
•are not used up or changed during the chemical reaction
•active site: part of the enzyme where the reactants bind (stick)
•reactants: molecules at beginning of a chemical reaction. Called the substrate when they encounter an enzyme.
•substrate only fits into the active site of the correct enzyme (like a key and lock)
Labeled diagram:
Enzyme
Active Site Reactants
Enzyme
Active Site Reactants
III. How does an enzyme work?A. substrate binds to the enzyme
Substrate
Enzyme
Active Site
III. How does an enzyme work?A. substrate binds to the enzyme
Substrate
Enzyme
Active Site
III. How does an enzyme work?B. reactants converted to product
Product
Enzyme
Active Site
III. How does an enzyme work?C. products are released – enzyme is free to bind new substrate
Product
IV. Enzymes only work in specific conditions
A. temperature: heat=destroy enzyme, cold= slow enzyme down
B. pH: changes the shape of the enzyme and its active site
C. coenzymes: make enzymes work better
D. inhibitor molecules: block substrate from entering active site
Balancing Chemical Equations
• A balanced equation shows that every atom of the reactant becomes part of the product.
• Atoms are never lost or gained.• Balancing an equation may require a
coefficient, which is then given to each atom in the formula.
Steps to Balancing an Equation
1. Count the atoms of each element in the reactants and in the products.
H2 + O2 H2O
H=2 O=2 H=2 O=1
2. Place a coefficient next to each formula that needs to be increased and recount the atoms
H2 + O2 2H2O
H=2 O=2 H=4 O=2
3. Continue to add coefficients until the number of atoms is the same on both sides of the equation.
2H2 + O2 2H2O
H=4 O=2 H=4 O=2
Enzyme
Active Site
pH Change or boiling:
Product
No Product Made
Enzyme
Active Site
Inhibitor Molecules:
Product
Enzyme
Active Site
Enzyme: Peroxidase in liver cellsReactants: Hydrogen peroxide
ReactantsHydrogen Peroxide
Enzyme
Active Site
Enzyme: Peroxidase in liver cellsReactants: Hydrogen peroxide
Reactants=Substrate
Enzyme
Active Site
Enzyme: Peroxidase in liver cellsProducts: Water and Oxygen
Product
O2 H2O
Enzyme
Active Site
Product
Enzyme: Peroxidase in liver cellsProducts: Water and Oxygen
More Hydrogen Peroxide
O2
H2O
Macromolecules
•Carbohydrates•Lipids•Proteins•Nucleic Acids
Carbohydrates
•Made of Sugar•Main Source of energy•Examples: Sugar
Lipids
•1 Glycerol & 3 Fatty Acids
•Stores energy•Examples: Fats, Cholesterol
Protein
•Amino Acids•Makes up structures in body
•Examples: Hair, muscles, skin, bones, etc.
Nucleic Acids
•Nucleotides•Store genetic material•Examples: DNA, RNA
Chemical Reactions and Enzymes
D. Practice: balance the following equations
1) _ Cu + _ S _ Cu2S
2) _ Na + _ O2 _ Na2O
3) _ CuO + _ H2 _ Cu + _ H2O
2 1 1
214
1 1 1 1
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