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Welcome to the OC Organic Chem 1-119 in notes OB: Mastering the alkanes, the alkenes, and the alkynes. Take out table P + Q now. At the end of today you should be able to name and draw, and recognize any alkane, alkene, or alkyne, 1 → 10 carbons long. All chemistry we have been doing is technically “inorganic” chem. The compounds are all found in nature. For a while, at the beginning, some molecules were considered “organic”, which meant that only living things (plants and animals) could produce them. Urea was the first organic molecule that scientists synthesized, and they’ve been busy since. The organic molecules we will study are more complex than the simpler molecular and ionic compounds so far, but we get a bunch of tables to help us name them. Some compounds, like acetic acid and ethanoic acid, are the SAME THING, but they have different naming styles. So what? Not to be scared of. Organic chemistry is the real class in college that students cry in all of the time. It’s there exactly that their hopes and dreams for med school end. Not because it’s too hard, but because it’s too much to study and retain. We will make it easy and it only lasts 2 weeks. You shouldn’t cry over this. Carbon. 1. The first atom of organic chem. Then comes hydrogen, H Followed by some others, like oxygen, O The halogens: F, Cl, Br, and I And the other cool atoms: N and S Count to 4, that’s most important. 2. Single, double and triple bonds. Then count to 1, 2, 3, also important. But 4 is most important. 3. No metals, not ever in organic. Table P, Q, and R. Take out P and Q now please. OUR FRIEND Prefix Number of carbon atoms meth- 1 eth- 2 prop- 3 but- 4 pent- 5 hex- 6 hept- 7 oct- 8 non- 9 dec- 10 4. You must use this table to learn to count carbon atoms in Latin. Memorize this, and remember it’s right there as table P, and look at it a lot. All organic molecules use the number of carbons in their chemical names. This is really important. 5. Carbon makes 4 bonds because it has a 2-4 electron configuration, and it needs the octet for bonding stability. All carbon atoms make 4 bonds. They can be: 4 single bonds, 2 single bonds + 1 double bond 2 double bonds 1 single + 1 triple bond 4 Bonds no matter what. Look at your hand, learn how many fingers FOUR is. Don’t forget how many 4 is, not ever. Hydrogen has 1 electron and can only bond as a single bond. Look at your hand, how many fingers is 1? Don’t forget that either. 6. If you have 1 carbon atom, and enough hydrogen atoms, how many hydrogen atoms does it take to completely bond one carbon atom? 7. What’s the formula for this SIMPLEST of all organic molecules? 6. If you have 1 carbon atom, and enough hydrogen atoms, how many hydrogen atoms does it take to completely bond one carbon atom? 4H + 1 C 7. What’s the formula for this SIMPLEST of all organic molecules? CH4 H A ONE CARBON molecule is called H METHANE C H H 8. When 2 carbon atoms bond together (single bonds only now) how many atoms of Hydrogen can also bond together with them? 9. What is the name of a 2 carbon simple (single bond) hydrocarbon molecule? Look at table P and Q 8. When 2 carbon atoms bond together (single bonds only now) how many atoms of Hydrogen can also bond together with them? C–C leaves room for 6 H atoms 9. What is the name of a 2 carbon simple (single bond) hydrocarbon molecule? Ethane Which can be written as __________ Name all of the SINGLE BONDED CARBON hydrocarbons 1 to 10 carbons in length, draw the structural diagrams and structural formulas, for each. #C 10 1 11 2 12 3 14 4 Name Structural Diagram and structural formula #C 15 5 16 6 17 7 Name Structural Diagram and structural formula #C 18 8 19 9 20 10 Name Structural Diagram and structural formula Vocabulary: 21. Organic chem: chemical compounds that at one time were thought to be made only by living organisms like plants or animals. This is not true, nor was it. 22. Carbon: the central atom in organic chem, it makes 4 bonds because of it’s electron configuration of 2-4. It can make single or double or triple bonds to itself. 23. Hydrogen: the second atom of organic chem. It only makes single bonds, and is in abundance in organic molecules. 24. Oxygen: makes 2 bonds, double or two singles, and is in the midst of all the really cool organic molecules. Where it is changes chemical names and properties. 25. Nitrogen: makes 3 bonds, and has a simpler role in high school chem, but is very much the coolest atoms in amino acids and proteins 26. Halogens: make single bonds only. In our class makes decorations on compounds 27. Hydrocarbons: base molecles of organic chem, made up only of H + C (hence the name) 28. ALKANES: hydrocarbons with only single C-C bonding. Only contain carbon and hydrogen atoms. Chains of 1 to 10 labeled with prefixes in table P. All end in –ane. 29. AKLENES: hydrocarbons with only one double C=C bond. Only contain carbon and hydrogen atoms. Chains of 1 to 10 labeled with prefixes in table P. All end in –ene. In college molecules can have multiple double bonding, but we have a single double bond to keep it simple. 30. ALKYENES: hydrocarbons with only one triple C≡C bond. Only contain carbon and hydrogen atoms. Chains of 1 to 10 labeled with prefixes in table P. All end in –yne. In college molecules can have multiple triple bonding, but we have a single triple bond to keep it simple. Look at Table Q. 31. What is the general formula for these ALKANES? 32. Alkane means that the hydrocarbon make ONLY SINGLE BONDS between the carbon atoms (methane is exceptional, only 1 carbon). 33. Hydrocarbons are the simplest organic molecules. 34. What are the only two atoms that are in hydrocarbons? 35. If it had an oxygen atom attached, or a chlorine atom attached, would it still be a hydrocarbon? 36.Will we learn about other kinds of molecules? 37.Homologous series means: _________________________ 38. The 2nd type of hydrocarbon chains are called alkenes. 39. Their general formula is They’ve less hydrogens than alkanes because they have a double bond. 40. In our class they will contain JUST 1 double bond, but in the real world, more than one double bond is possible. 41, 42, and 43. We will draw the first three in a row now… 41. Is a JOKE. No “methene” is possible. You need at least 2 carbons to have a double bond between 2 carbon atoms! Now DRAW ethene and propene… 42. Ethene Hydrogen atoms at an angle is cool, or you can stick with the 90° angles, it’s just a drawing. 43. Propene Straight lines, or bent, the chain is 3 carbons in a row and that’s all that matters. Double bond left or right, it’s the same thing, molecules float! 44. Try to draw butene now. With 4 carbons things start to get a touch more complicated. You can you put that double bond in 2 different places (between carbon 1 + 2, or between carbon 2 + 3) Where is that double bond? It’s attached to which carbon atoms? It’s crooked, but still a line. Where is that double bond? 45. This is 1-butene, the double bond goes from the first carbon to the second carbon. (use smallest number possible) 46. This is 2butene, the double bond goes from the 2nd to the 3rd Carbon atom. (use the smallest numbers) Draw these next 47 1-pentene 48 2-pentene 49 3-hexene Draw these next 50 3-heptene 51 3-octene 52 4-nonene 53 Propene (no number, why??) Draw the following (you MAY omit the “H” atoms, but not the bonds 1-pentene 2-pentene 3-hexene 3-heptene Draw the following (you MAY omit the “H” atoms, but not the bonds 3-octene 4-nonene 1-decene -c-c-c=c-c-c-c-c-c-c-c-c=c-c-c-c-c- 54. The third group of hydrocarbons are the ALKYNES Small change in name, this one has a triple bond. In our class the ALKYNES will ONLY have one triple bond. 55. Naming and drawing will be just like the alkynes, the number tells where the triple bond is placed 56. There is no “methyne” either, you need at least 2 carbons to triple bond together. 57. Draw ethyne, and propyne now… 57. Ethyne and one triple bonded carbon pair, and as many hydrogen atoms that fit, JUST 2. 58. This is NOT 1-propyne, because if the triple bond were on the right side, you’d just count carbons from that side (the end closest to the fancy part, here it’s a triple bond, is carbon #1. Just PROPYNE 59. Let’s draw 1-butyne and 2 butyne next (put your triple bond in the right place!) Below is 2 butyne That’s 1-butyne above, counting from the right side. Right, left, who cares? Just keep track of the “first” carbon, it does not matter right or left. The triple bond is between carbon #2 and #3, counting from EITHER direction. Let’s draw some more… 60. 1-decyne 61. 1-pentyne 62. 2-pentyne 63. 3-hexyne Let’s draw some more… 1-decyne 1-pentyne 2-pentyne 3-hexyne Review: Use Table P to count to 10 in Latin prefixes Use Table Q for hydrocarbons. There are 3 kinds of hydrocarbons (3 homologous series) they contain ONLY Carbon + Hydrogen atoms Alkanes all C-C bonds are single, these are “saturated” hydrocarbons - they hold the MOST hydrogen atoms Alkenes Must contain only one C=C double bond in our class, The double bond must be enumerated unless too small to matter these are unsaturated hydrocarbons Alkynes Must contain only one CΞC triple bond in our class, The triple bond must be enumerated unless too small to matter these are also unsaturated hydrocarbons Organic Chem Class #3 OB: adding halogens into all three kinds of hydrocarbons. Take out Table R 64. Why do Pirates Love Organic Chem? They really like table ARRRRGGHHHHH! Now let’s look at the top of Table R The 1st “FUNCTIONAL GROUP” are halogens. 65. Functional groups are added to the hydrocarbons to make them fancier, to make them more difficult, to make them smell better or worse, to give them a wide variety of properties. That’s the organic chem part. The first, and the simplest functional groups we’ll add in are the halogens. 66. As you remember, group 17 contains the halogens: F, Cl, Br, and I When they are added to hydrocarbons we need to BOND them to the chains, to the Carbon atoms. 67. Each halogen has 7 valence electrons. They all need to share ONE electron with a carbon atom, making a single bond. They all make only single bonds. Only single bonds. Only. 65. Halogens can be substituted into hydrocarbons that are saturated (alkanes) 66. Or they can be added into hydrocarbons that are unsaturated, like the alkenes. 67. Or added to the Alkynes). If we start with a simple ethane molecule we can substitute in a halogen for a hydrogen with a substitution reaction. We’re learning 2 new things at once. 68. Ethane is a saturated hydrocarbon molecule (alkanes have as many H atoms as possible). 69. We can’t ADD a halogen atom into ethane because it’s already SATURATED but we can substitute in an atom for an H atom. This is a substitution reaction 70. Ethane + Fluorine yields… + F2 F + HF Fluoro-ethane + hydrogen monofluoride Draw then name these molecules now. 71. 72. Br F F 73. 74. F Cl F Let’s name these molecules now. 71. 72. Br Bromo-ethane 73. F F 1,2 di-fluoro-ethane 74. F Cl F Chloro-ethane 1,1 di-fluoro-ethane The rules to naming these halo-carbons is easy. We’ll write them once, practice them lots, then you will just remember them because they are easy… 75. Rules to naming halocarbons: 1. Figure out the base chain name, that’s going to be the “LAST NAME” of the molecule. 2. Any Double and Triple bonds will “trump” fancy functional groups. They will decide the carbon atom counting. 3. If no double or triple bonds, figure out which side we’ll count the carbons from, the fancy atoms (or groups) will decide which is the “short end to count from”. 4. The halogens are named in ALPHABETICAL order first, numbers second. 76. Draw and name this molecule H Br F F There is a 4 carbon butane base chain that these halogens are attached to… Bromine comes first, since Br is before F in the alphabet. But, Br is on the 3rd carbon. The F atoms are on the carbon atoms # 1 + 2 76. This would be 3-bromo 1,2-difluro-butane H Br F F Cl Cl Cl F Br F 77. Name this molecule… First, how many carbons in a row, and are they single bonds only? This is a nonane base chain. Which is carbon #1, then work out the first names Cl Cl Cl F Br F Carbon #1 is the right side one, since the functional group closest to one end is closer to the right side carbon. Names go alphabetical, and numbered, so… 77. 2-bromo, 5,6,7-tri-chloro, 1, 4-difluro-nonane I I F Cl 78. Name this funky thing. Base chain first always… I I F Cl Name the base chain first 1-octyne The base chain sets the carbon count. The chlorine comes first, so… 78. 6-chloro, 7-fluoro, 8,8-di-iodo, 1-octyne Let’s substitute in a Cl, over + over + over 4x + Cl2 Methane + chlorine Cl + Cl2 chloromethane + HCl Cl + HCl → chloromethane ? + HCl #79 79. Cl + HCl Cl + Cl2 Cl Chloromethane + chlorine Cl + Cl2 Cl makes dichloromethane + ? HCl #80 80. Do the next 2 substitution reactions, draw molecules, name the products Cl Cl + Cl2 Cl Cl + HCl Cl trichloromethane + HCl Cl Cl + Cl2 Cl ? #81 81. Cl Cl Cl + Cl2 Cl Trichloromethane + chlorine Cl Cl Cl tetrachloromethane + HCl 82 + 83. Name us F F–C–H F Cl Br – C – H Cl 82 + 83. Name us F F–C–H F Trifluoromethane Cl Br – C – H Cl Bromodichloro methane 82 + 83. Name us Cl Br – C – H Cl Trichlorofluoro methane 84. Addition reactions… Ethene + Bromine → (unsaturated hydrocarbon + halogen…) 85. Addition reactions… Ethyne + chlorine → (unsaturated hydrocarbon + halogen…) 86. Addition reactions… 1pentyne + fluorine → (unsaturated hydrocarbon + halogen…) 87. Draw structural diagrams for these molecules (omit your H’s if you want to) propane, pentane, 2-butene, and then 3-hexyne 87. propane pentane 2-butene 3-hexyne 88 + 89. Draw these: 3-bromo, 4,5-dichloro, 1-heptene 5,5,5-trifluoro, 1-pentyne 88. 3-bromo,5,6 dichloro, 1-heptene Br Cl -C=C-C-C-C-C-CCl F -CΞC-C-C-C- F F 89. 5,5,5-trifluoro, 1-pentyne 90. Name Me H H H Cl F H C C C C C F H H H H Which is carbon #1??? H 90. Name Me H H H Cl F H C C C C C F H H H H H First carbon on left (F) attached, so 3-chloro, 1,4-difluoro-pentane Organic Classes # 4 The next 4 functional groups of Table R Alcohols, ethers, aldehydes, & ketones Today we will look into the alcohols, the ethers, the aldehydes + the ketones (not key-tones) Alcohols 91. According to table R, alcohols have an “–OH” group which is NOT a hydroxide. When the anion hydroxide is ionically bonded to a metal, that is an Arrhenius base. This is MOLECULAR. 92. When the –OH group is bonded (covalently) to a hydrocarbon, it’s an alcohol. 93. The general formula for alcohols is R ― OH Where R is any hydrocarbon that the ―OH group can bond onto. 94. Draw the ONE Carbon Alcohol now Draw and name each alcohol molecule 94. one carbon alcohol The CONDENSED STRUCTRUAL FORMULA IS WRITTEN THIS WAY: CH3OH methanol The –OH really means –O–H But we abbreviate it and just “know” that the oxygen and hydrogen make a single covalent bond. It’s prettier that way. 95. Draw the two carbon alcohol 96. Draw the TWO DIFFERENT three carbon alcohols 95. Ethanol 96A. 96B. 1-propanol 2-propanol 97. Draw & name each 5 carbon alcohol molecule possible 97. Draw and name each 5 carbon alcohol molecule that you can… H H H H H H H H C C C C C H H H H H H H H H H C C C C C H H H OH H H H H H H C C C C C H H OH H H OH H H 1-pentanol 2-pentanol 3-pentanol Name the base chain (count carbon atoms) Enumerate where the alcohol group is located. Alcohol names always end with an -anol suffix This is a list of ALL the alcohols in our class, none are missing. # carbons 1 2 3 names of the alcohols methanol ethanol 1-propanol, 2-propanol 4 5 6 1-butanol, 2-butanol 1-pentanol, 2-pentanol, 3-pentanol 1-hexanol, 2-hexanol, 3-hexanol 7 8 1-heptanol, 2-heptanol, 3-heptanol, 4-heptanol 1-octanol, 2-octanol, 3-octanol, 4-octanol 9 10 1-nonanol, 2-nonanol, 3-nonanol, 4-nonanol, 5-nonanol 1-decanol, 2-decanol, 3-decanol, 4-decanol, 5-decanol Ethers Ethers are easy because they have a single atom of oxygen in the middle, and two different “R” groups, left + right. 98. Ethers have a functional group that looks like this: Which means an R group attached to an oxygen atom, which is attached to ANOTHER R group on the other side. Ethers We need to introduce one more new thing now. Methane is CH4 Ethane is CH3CH3 Propane is CH3CH2CH3 There is NO WAY to attach a methane to an oxygen atom and no way to attach an ethane, or propane, etc. But if we remove a hydrogen atom, we can attach what’s left of it to the oxygen atoms. Ethers are R―O―R’ which means that on either side of the ether there is a hydrocarbon chain, one to ten carbons long. But not the “whole” methane, or ethane, propane, butane, pentane, hexane, etc. 99. Methane minus 1 hydrogen is called methyl 100. Ethane minus 1 hydrogen atom is called ethyl 101. Propane minus 1 hydrogen atom is called propyl 102. Butane minus 1 hydrogen atom is called butyl. 103. Then comes pentyl, hexyl, heptyl, octyl, nonyl, and decyl. 104. Draw the simplest ether, with a one carbon on each side. 105. Draw the next simple ether, with a single carbon on one side, and 2 carbons on the other side. 104. Methyl methyl ether sounds too funny. It’s wrong. H H C H H O C H This is dimethyl ether. H Condensed structural formula is CH3OCH3 105. Methyl ethyl ether is sort of wrong. This is ethyl methyl ether (alphabetical order) Condensed structural formula is CH3CH2OCH3 H H H C C H H H O C H H Draw these ethers. 106. Butyl ethyl ether 107. Methyl pentyl ether 108. Heptyl hexyl ether Draw these ethers… H 106. Butyl ethyl ether H H H H C C C H H 107. Pentyl methyl ether H C O H H H H H H H C C C C H H H C H H H H C C H H H H C O H H 108. Heptyl hexyl ether H H H H H H H H C C C C C C C H H H H H H H O H H H H H H C C C C C C H H H H H H H 109. Aldehydes and Ketones we will examine together, since they are nearly the same thing, but they are PHYSICALLY DIFFERENT, they are ISOMERS. 110. They both have a C=O bond, just in different places. 111. Aldehydes always have the C=O at the end of a hydrocarbon chain, 112. Ketones always have the C=O in the middle of a chain. 113. Draw and name the 3 carbon aldehyde 114. Draw and name the 3 carbon ketone now 116. 3 carbon aldehyde propanal CH3CH2CHO 117. 3 carbon ketone propanone CH3COCH3 115. Draw METHANAL 116. Draw ETHANAL 117. Draw BUTANAL 118. Draw BUTANONE 119. Draw 2-Pentanone The smallest ketone is propanone. There must be at least 3 carbons for this C=O bond to “be in the middle” of a chain of carbons. 115. METHANAL 116. ETHANAL H O O H C C H H H C H 118. Butanone H H O H C C C C H H H 117. BUTANAL H H H H O C C C C H H 119. H H H 2-Pentanone H H H C C C H H H O H C C H H H H