1.  1. Atom  2. Nucleus  3. Electron  4. Element  5. Compound  6. Molecule  7. Covalent Bond  8. Ionic Bond  9. Acid  10.Base

2. Chapter 2

3. BBiochemistry – the study of the chemicals of living things and their changes

4.  Democritus –2500 yrs. Ago  Have subatomic particles: protons (+), neutrons (no charge), and electrons (-) ◦ Particles found in the nucleus = protons and neutrons ◦ Particles found outside the nucleus in energy levels = electrons

5.  One type of Atom  A pure substance  Atomic # = the number of protons  Mass # = the number of protons and neutrons

8. AAtoms of the same element that have different #’s of neutrons TThese atoms have the same chemical properties RRadioactive isotopes = useful and dangerous

9.  The chemical combination of one or more elements in a fixed ratio ◦ Example: H 2 O = 2Hydrogen: 1Oxygen  Physical and chemical properties of these elements are quite different

11.  These bonds hold atoms in a chemical compound together  Valence electrons = the very outside electrons of an atom that form bonds.

12.  1. Ionic Bonds = One or more electrons are transferred from one atom to another. There is a strong attraction between elements with opposite charged ions. ◦ Ion – atom that has gained or lost electrons ◦ Loss (+, more protons), gain (-, more electrons). ◦ Example Na (sodium) loses an electron to Cl (chlorine) = Na+Cl-

15.  2. Covalent Bonds = One or more electrons are shared from one atom to another. ◦ There are single and double covalent bonds ◦ These form molecules Example: H 2, N 2

17. ◦ The particles that move around the nucleus of an atom are called  neutrons.  protons.  electrons.  isotopes.

18. ◦ The atomic number of a carbon atom is 6. How many neutrons does the isotope carbon-14 have?  6  8  12  14

19. ◦ Which of the following statements about the three isotopes of carbon is true?  They are all radioactive.  They have different numbers of electrons.  They have the same chemical properties but differ in atomic mass.  They have the same number of protons and neutrons.

20. ◦ A chemical compound consists of  Electrons mixed with neutrons.  two or more elements combined in a definite proportion.  two or more elements combined in any proportion.  at least three elements combined by ionic or covalent bonds.

21. ◦ Van der Waals forces are the result of  unequal sharing of electrons.  ionic bonds.  the bonding of different isotopes.  the chemical combination of sodium and chlorine.

23.  Water is a Polar Molecule – uneven distribution of electrons between Hydrogen and Oxygen

24. WWater is very cohesive = it is highly attracted to other water molecules ◦T◦This is due to Hydrogen bonding

26.  A mixture is two or more elements or compounds that are mixed together  2 Types ◦ 1. Solution = Compounds are evenly distributed. Contain solutes = substances being dissolved, and solvents = the substance in which the solute is dissolved. ◦ 2. Suspensions = mixtures with undissolved materials

28.  pH Scale = the concentration of H+ (hydrogen) and OH- (hydroxide) ions in solution.  Acids = Higher concentration of H+ ions then pure water = pH below 7  Bases = Lower concentration of H+ ions then pure water = pH above 7

29.  H 2 O H + + OH −  Water Hydrogen ion + hydroxide ion  Lots of H + = acid  Lots of OH − = base

30.  Measure of H + in solution  The higher the H + the closer to zero on the pH scale  Scale from 0 – 14  0 – 6.9 = acid  7 = neutral  7.1 – 14 = base

31.  Each step on the pH scale represents a factor of 10 ◦ An acid with a pH of 4 is ten times stronger than an acid with a pH of 5 ◦ How many times more basic is a pH of 10 than a pH of 8?  100 times more basic  (10) (10) = 100

32.  Tools used to measure pH ◦ Example: pH paper, litmus paper  Measures amount of H + and changes color based on the concentration

33.  Weak acid or base that can react with strong acids or bases to help prevent sharp, sudden changes in pH  Buffers are very important for maintaining homeostasis in living things

35. ◦ A molecule in which the charges are unevenly distributed is called a  polar molecule.  cohesive molecule.  hydrogen molecule.  covalent molecule.

36. ◦ A dissolved substance is called a  solvent.  solution.  solute.  Suspension.

37. ◦ A compound that produces hydroxide ions in solution is called a(an)  base.  buffer.  acid.  salt.

38. ◦ Hydrogen bonds between water molecules result from  adhesion between water molecules.  magnetic attractions between water molecules.  uneven electron distribution in each water molecule  ionic bonds in the water molecule.

39. ◦ On a pH scale, a value of 2 means that the solution has  equal concentrations of H + and OH - ions.  the same concentration of H + ions as pure water.  higher concentration of H + than in pure water.  lower concentration of H + than in pure water.

40.  Organic Chemistry - Study of all compounds that contain bonds between carbon atoms.

41.  Why is Carbon so important? ◦ 4 Valence Electrons = strong covalent bonds between other atoms ◦ Carbon can bond to other carbon atoms = single, double, triple bonds

42.  Giant Molecules  Created by Polymerization = Chemical process in which small units of compounds, called monomers, join together to build large units, called polymers

43.  4 groups of carbon based compounds found in living things ◦ 1. Carbohydrates  Made up of carbon, hydrogen, and oxygen atoms in a 1:2:1 ratio  Bodies main source of energy (Animals)  Used for structural purposes (plants)

44.  Sugars (immediate energy) and starches (stored energy). Sugar monomers make up starches.  Monosaccharides = “single sugar” molecules. Ex. Glucose  Polysaccharides = “many simple sugar” molecules. Ex. Glycogen (animals) and Cellulose (plants).

47.  2. Lipids ◦ Made up of Carbon and Hydrogen atoms ◦ Insoluble in water. ◦ Fats, oils, steroids, and waxes ◦ Used to store energy. ◦ Composed of glycerol and fatty acids ◦ 2 types  1. Saturated = Fatty acid carbon chains are joined by a single bond. These fatty acids contain the max. # of Hydrogen atoms

48.  2. Unsaturated = Contains one carbon- carbon double bond in the fatty acid

49. Saturated Fat Unsaturated Fat

50.  3. Nucleic Acids ◦ Contain hydrogen, oxygen, nitrogen, carbon, and phosphorous ◦ Polymers assembled from nucleotides = a 5- carbon sugar, a phosphate group, and nitrogenous base. ◦ Store and transmit hereditary or genetic information ◦ 2 Types  DNA – Deoxyribonucleic acid  RNA – Ribonucleic acid

52.  4. Proteins ◦ Contain Nitrogen, Carbon, Hydrogen, and Oxygen ◦ Polymers of amino acids (a.a.) = one amino group (NH 2 ) end, one carboxyl group (COOH) end, and a third group called the R-group. Each amino acid has a different R-group. ◦ Most diverse macromolecules = Amino acids (20) have an ability to attach to any other amino acid in nature. Attach at amino and carboxyl groups

55. ◦ All proteins have specific roles ◦ Control reaction rates and regulate cell processes ◦ All have 4 levels of organization: Important!!  Primary = sequence of amino acids.  Secondary = twisted and folded chain of amino acids.  Tertiary = Chain is then twisted itself.  Quaternary = The entire protein maintains a folded, twisted shape due to H-bonds and Van der Waals Forces.

58. ◦ Large carbohydrate molecules such as starch are known as  lipids.  monosaccharides.  proteins.  polysaccharides.

59. ◦ Many lipids are formed from glycerol and  fatty acids.  monosaccharides.  amino acids.  nucleic acids.

60. ◦ Proteins are among the most diverse macromolecules because  they contain both amino groups and carboxyl groups.  they can twist and fold into many different and complex structures.  they contain nitrogen as well as carbon, hydrogen, and oxygen.  their R groups can be either acidic or basic.

61. ◦ Which of the following statements about cellulose is true?  Animals make it and use it to store energy.  Plants make it and use it to store energy.  Animals make it and use it as part of the skeleton.  Plants make it and use it to give structural support to cells.

62. ◦ A major difference between polysaccharides and proteins is that  plants make polysaccharides, while animals make proteins.  proteins are made of monomers, while polysaccharides are not.  polysaccharides are made of monosaccharides, while proteins are made of amino acids.  proteins carry genetic information, while polysaccharides do not.

63.  Chemical Reaction = ◦ The changing of one set chemicals into another set of chemicals. ◦ It will always involve breaking of bonds in reactants and forming new bonds in the products.

64.  All chemical reactions have 2 parts: ◦ 1. Reactants = The chemicals that enter a reaction ◦ 2. Products = The elements or compounds that are formed from the reactants chemical interaction CO 2 + H 2 O H 2 CO 3 + Energy Reactants Products

65.  Energy in Chemical Reactions = Energy is released (spontaneously) or absorbed (need a source of energy) during a chemical reaction  Living things need sources of energy to continue chemical reactions, and stay alive

66.  Activation Energy = The energy needed to start a chemical reaction  Catalysts = A substance that lowers the activation energy and speeds up the rate of a chemical reaction.

68.  Enzymes = Proteins in living things that act as catalysts. Cells use catalysts to speed up chemical reactions that take place there ◦ Lower the activation energy ◦ Very Specific = catalyze only one reaction

70.  Activation Site = an area on the enzyme where the reactants come in contact and are able to react ◦ Reduces the energy needed ◦ Enzyme catalyzed reactions = Substrates

73.  regulating chemical pathways.  making material that cells need.  releasing energy.  transferring information.

74.  pH changes, temperature changes, cell regulation, etc.

75. ◦ The elements or compounds produced by a chemical reaction are known as  reactants.  enzymes.  products.  waste.

76. ◦ Chemical reactions always involve  changes in energy.  enzymes.  catalysts.  changes in the atomic number of the reactants.

77. ◦ The factor that prevents many energy-releasing reactions from occurring at relatively low temperatures is called  catalytic energy.  chemical bond energy.  enzyme energy.  activation energy.

78. ◦ Which of the following statements is true?  All proteins are enzymes.  All catalysts are enzymes.  All enzymes are catalysts.  All catalysts are proteins.

79. ◦ What happens to an enzyme after the reaction it catalyzes has taken place?  The enzyme is destroyed, and the cell must make another.  The enzyme holds on to the product until another enzyme removes it.  The enzyme is unchanged and ready to accept substrate molecules.  The enzyme changes shape so it can accept a different kind of substrate.