CLEP Biology Chapter 2 - Chemistry of Life PDF

Summary

This document is a chapter of CLEP Biology, focusing on the chemistry of life. It introduces basic concepts of matter, elements, atoms and molecules, bonds including covalent, ionic, and hydrogen bonds, chemical reactions, thermodynamics, and water properties. It also discusses organic compounds.

Full Transcript

CLEP Biology: Chapter 2 - The Chemistry of Life September 28, 2024 Matter - Atoms, Elements, Molecules - Chemistry - the study of matter - Elements - substances that cannot be broken down into any other substance - Atom - smallest un...

CLEP Biology: Chapter 2 - The Chemistry of Life September 28, 2024 Matter - Atoms, Elements, Molecules - Chemistry - the study of matter - Elements - substances that cannot be broken down into any other substance - Atom - smallest unit of an element that retains an element’s characteristics https://saintschemistry8.weebly.com/uploads/5/1/9/3/51932861/6a00d83467970453ef017c31cd9043970b-300x200_3_orig.jpg Matter - Atoms, Elements, Molecules - Parts of an atom - Nucleus - Proton (+1) - Unique number of protons in an atom - Determines atomic number - Neutron (no charge) - About the same number as protons - Electrons (-1) - In uncharged atom, about the same number as protons - Surrounds nucleus Example: Atoms in element X has 4 protons, 4 neutrons, and 5 electrons. What is the net charge of these atoms? https://www.sciencefacts.net/wp-content/uploads/2020/11/Atomic-Nucleus-Diagram.jpg Matter - Atoms, Elements, Molecules https://images.slideplayer.com/13/3913461/slides/slide_10.jpg Chemical Bonds - Covalent bonds = strongest chemical bond - Form molecules - 2+ atoms held together by covalently shared electrons - Compound or molecular element https://media.geeksforgeeks.org/wp-content/uploads/20221111091711/CovalentBond.png Chemical Bonds - Ionic bonds = form when an atom exchances and electron with another atom https://www.chemistrylearner.com/chemical-bonds/ionic-bond Chemical Bonds - Hydrogen bonds = weakest bonds - Temporarily holds separate molecules together - Responsible for holding complementary DNA strands together https://media.geeksforgeeks.org/wp-content/uploads/20220817125330/HydrogenBondinginWater.jpg Chemical Reactions - Chemical reactions - happen when molecules interact with each other to form 1+ molecules of another type The Thermodynamics of Chemical Reactions - https://chemistrytalk.org/endothermic-vs-exothermic-reactions/ Properties of Water - “Elixir of life” - Multiple states of matter (solid (ice), liquid (water), gas (water vapor)) - High specific heat (resists change in temperature; needs significant amount of energy in order to change temp) - High surface tension (allows small particles/organisms to rest on surface) - Polar (able to dissolve many types of organic/inorganic substances) https://physics.aps.org/assets/55d93838-bbfa-4264-89cd-5002ca6e4855/e33_1.png Acids, Bases, and Buffers - When a chemical is dissolved in water … - Acids - donates protons (H+ ions) - conjugate base is what’s left of an acid after it donates a hydrogen ion (H⁺). - Bases - accepts protons (H+ ions) OR donates hydronium ions (OH-) - conjugate acid is what forms when a base gains a hydrogen ion (H⁺) - Neutralization reaction of acidic solution + basic solution → water + salt - Buffer - aqueous combination of weak acid + its conjugate base OR weak base + its conjugate acid https://www.snexplores.org/article/scientists-say-ph Chemical Structure of Organic Compounds - Organic compounds: compounds that contain carbon - Organic molecules: contain Hydrogen, oxygen, nitrogen, sulfur, phosphorous, some metal ions - Monomers: Basic building blocks of biomolecules (example: amino acids). In carbohydrates, the monomers are simple sugars called monosaccharides. - Polymers: Larger molecules formed from repeating units of monomers. In carbohydrates, polymers are chains of sugars. - Monosaccharides: Simple sugars made of 3 to 7 carbon atoms. Example: Glucose (C₆H₁₂O₆), a key sugar used for energy. - Disaccharides: A specific type of carbohydrate where 2 monosaccharides join together. Example: Sucrose (table sugar) = glucose + fructose. - Polysaccharides: Long chains of monosaccharides (3+). Examples: - Cellulose: A structural component in plant cell walls. (Long chain of water-insoluble polysaccharides) - Glycogen: Used by animals for short-term energy storage. (Polysachharide composed of many bonded glucose units) - Isomers: Molecules like glucose and fructose that share the same molecular formula (C₆H₁₂O₆) but differ in the arrangement of their atoms. Chemical Structure of Organic Compunds Carbohydrates: Organic compounds made of carbon, hydrogen, and oxygen. - The hydrogen to oxygen ratio in lipids is always 2:1. - Examples: sugars, starches - Crucial for energy storage https://www.expii.com/t/monomers-and-polymers-role-importance-10360 Chemical Structure of Organic Compunds Lipids: Organic compounds made of carbon, hydrogen, and oxygen. - The hydrogen to oxygen ratio in lipids is always greater than 2:1. - Examples: waxes, steroids, phospholipids, and fats. - Hydrophobic (do not dissolve in water). - Perform various functions in cells (e.g., structural, energy storage (fats), moisture barriers). https://www.expii.com/t/monomers-and-polymers-role-importance-10360 Chemical Structure of Organic Compunds Proteins: Large unbranched polymers made of amino acid monomers. - Amino acids: cyclic molecules containing carbon, hydrogen, oxygen, nitrogen, and sometimes sulfur or phosphorus. - Amino acids form polypeptides through peptide bonds. - Protein shape determines function; it folds into unique 3D structures. - Enzymes are specialized proteins that catalyze reactions. https://www.expii.com/t/monomers-and-polymers-role-importance-10360 Chemical Structure of Organic Compunds Nucleic acids: Made of nucleotide monomers, each with a five-carbon sugar, phosphate group, and nitrogenous base. - Two types: DNA (deoxyribonucleic acid) and RNA (ribonucleic acid). - Nitrogenous bases include adenine (A), cytosine (C), guanine (G), and thymine (T) for DNA; uracil (U) replaces thymine in RNA. - Nucleotides pair to form the double-helix structure in DNA (Watson-Crick model). https://www.expii.com/t/monomers-and-polymers-role-importance-10360 DNA vs. RNA https://www.thoughtco.com/dna-versus-rna-608191 Complementarity https://www.nagwa.com/en/explainers/636128124616/ Drawing Bohr Diagrams Lewis Structures Polarity Resources: - https://www.khanacademy.org/science/hs-chemistry/x2613d8165d88df5e:states-of-matter/x26 13d8165d88df5e:electronegativity-and-bond-polarity/v/electronegativity-trends

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