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Chemistry of Life Nature of Matter, Water & Solutions, Chemistry of Cells and Energy & Chemical Reactions https://www.youtube.com/watch?v=YO244P1e9QM&t=183s.

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Presentation on theme: "Chemistry of Life Nature of Matter, Water & Solutions, Chemistry of Cells and Energy & Chemical Reactions https://www.youtube.com/watch?v=YO244P1e9QM&t=183s."— Presentation transcript:

1 Chemistry of Life Nature of Matter, Water & Solutions, Chemistry of Cells and Energy & Chemical Reactions

2 Compounds Organic Compounds:
compounds that contain hydrogen and carbon Inorganic Compounds: compounds that contain carbon or hydrogen and other elements

3 Macromolecules biological molecules that have a specific function
elements that make up the molecule: carbon, hydrogen, oxygen, and nitrogen

4 Macromolecules Nucleic Acids
A long chain of smaller molecules called nucleotides Nucleotide: contains a sugar, base and a phosphate group (phosphorus and oxygen atoms) Example: DNA ATP

5 Macromolecules Proteins Large molecule formed by linking amino acids
Amino acids: building blocks of proteins – twenty different types with different structures and functions Can be enzymes that promote chemical reactions or create structural function Examples: Enzymes, Antibodies ATP

6 Macromolecules Carbohydrates
organic compounds that are a major energy source and provide structure Building blocks: mono/disaccharides Purpose: Short term energy Example: Wheat, potatoes, glucose, fructose, cellulose ATP

7 Macromolecules Lipids Fats: glycerols and three fatty acids
hydrocarbon backbone, hydrophobic store energy, provide insulation, make up cell membranes Example: Fats and oils ATP

8 Macromolecules Food Type of Macromolecules French Fries
Tacos (soft shell) with just cheese ATP

9 Energy & Chemical Reactions
Energy in Chemical Reactions Energy is absorbed and released from breaking and forming bonds Temperature can determine heat loss or gain Ice to Liquid Water: heat absorbed Liquid Water to Ice: heat released

10 Energy & Chemical Reactions
Activation Energy The energy needed to start a chemical reaction – (the energy level needed to be reached) Example: Boulder down a hill – the boulder needs to get pushed to have momentum.

11 Energy & Chemical Reactions
Reaction Rate The amount of chemical reactions that occur within a certain time

12 Enzymes Catalyst– that reduce the activation energy
Enzyme - Substances that increase the speed of a chemical reaction Purpose is the help maintain and establish homeostasis

13 Enzymes Enzyme Specificity
Substrate: a substance on which an enzyme acts upon Active Sites: pockets that are specific to substrates on enzymes

14 Enzymes Lock & Key Model
Only certain enzymes can work with specific chemical reactions Just like keys are specific to a specific lock

15 Enzymes pH Scale

16 Enzymes Optimal Environment
Needs a proper pH, temperature and conditions for the reaction to occur Most work in humans at or around body temperature Buffers: used to stabilize conditions increases chances of the reaction

17 Enzymes Denatured Enzyme changes shape or size
decreases chances of functioning

18 Enzymes Increases reaction rate Heat = no reaction (ruins enzyme)
Summary of Enzymes Increases reaction rate Heat = no reaction (ruins enzyme) Substrate binds to active sites ENZYMES ARE EXTREMELY SPECIFIC

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