ORGANIC - CLUTCH CH. 3 - ACIDS AND BASES.

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CONCEPT: OVERVIEW OF CHEMICAL REACTIONS There are 4 types of common chemical reactions that we need to be familiar with in organic chemistry 1. Acid-Base Reactions: Two molecules of opposite charges react to exchange a (usually). Substitution Reactions: An acid-base reaction where an atom (or group of atoms) other than are exchanged Elimination Reactions: Two single bonds are removed to create one double bond Addition Reactions: One double bond becomes two single bonds Page 2

CONCEPT: THE MECHANISM- REACTIVITY The currency of organic chemistry is Stability and reactivity generally have an relationship. The 4 common indicators of reactivity: 1. 2. 3. 4. EXAMPLE: Identify which of the following molecules would be expected to be reactive. We can categorize almost all reactive molecules into two massive subtypes. These will display similar behaviors. Negatively charged species are known as Positively charged species are known as The side of the dipole with the bonding preference can be used to predict nucleophilicity or electrophilicity EXAMPLE: Identify which of the above molecules are nucleophilic or electrophilic Page 3

CONCEPT: THE MECHANISM- ELECTRON MOVEMENT Reactive molecules share electrons to become more stable. are used to show which direction they are going. Arrows always move from regions of electron density to electron density By that logic, must always attack Each attacking arrow represents electrons being shared. Replace that arrow with a new - EXAMPLE: Determine the initial direction of electron movement by drawing the first arrow of each mechanism: a. b. c. Bond breaking is sometimes also required in mechanisms, but only when it is required to preserve octets. There are two ways to break chemical bonds: EXAMPLE: Identify which of the above reactions require bond breaking and/or more arrows to satisfy all octets. Page 4

CONCEPT: ACID and BASE DEFINTIONS Before we get started: Remember your strong six! (HCl, HBr, HI, HNO3, H2SO4, HClO4) Lewis definition: Same as Acid is an electron pair Base is an electron pair Brønsted-Lowry definition: Acid is a proton Base is a proton EXAMPLE: Properly identify the following molecules: a. b. c. d. e. f. Equilibrium: A base will always attack an acid to produce in the following chemical pattern: Page 5

PRACTICE: Move electrons using arrows to predict and label the products of the following reaction: a. b. Page 6

CONCEPT: EQUILIBUIM CONSTANT and pka In general chemistry, we used ph to measure In organic chemistry, we use to measure the tendency for a molecule to Strong acids have a dissociation constant (they dissociate in aqueous solution) Weak acids have a dissociation constant (they dissociate in aqueous solution) p = Ka = ( ) Therefore, the Ka, the the pka EXAMPLE: Calculate the pka s of the following acids and indicate which is the stronger acid. Page 7

CONCEPT: pka VALUES We can use pka values to help us determine the relative acidity of common organic molecules. EXAMPLE: Identify all of the relevant pka values for the indicated protons. Rank them in order of increasing acidity. PRACTICE: Rank the following organic compounds in order of increasing pka PRACTICE: Rank the following organic compounds in order of increasing acidity Page 8

CONCEPT: ACID and BASE EQUILIBRIUM Ultimately, we can use pka information to determine the overall direction and favorability of an acid base reaction. STEPS: 1. Identify the Lewis acid and base Many times charges or a known acid will be present (+) (-) Dissociate ALL spectator ions, these are the cations, and If both compounds are still neutral, assign the one with the lowest pka as the acid 2. Label the conjugate acid and base 3. Compare the acidity/pka of the Lewis Acid to the. Must go from to EXAMPLE: Would the following reactions go to the right or the left? Label ALL species. Draw arrows in the correct direction. a. b. Page 9

CONCEPT: FACTORS AFFECTING ACIDITY- ELEMENT EFFECTS There are 5 major factors of acidity. We use these factors to determine relative acidity in the following two situations: 1. pka information is for a molecule 2. The pkas of two molecules are to make a determination of highest acidity. When analyzing these 5 factors of molecules, look at the stability of the. The more stable the, the more willing the acid will be to donate a proton. 1. Element Effects: The element effects determine how loosely or strongly a particular element bonds with We can use these effects to compare different protonated elements to each other. (i.e. NH3 vs SH2) Consists of two trends: 1. Electronegativity the stronger the electronegativity, the more willing to accept a lone pair. 2. Size the bigger (squishier) the atom, the more willing it will be to accept a lone pair. EXAMPLE: Without using pka values, which of the following pairs is more acidic? 1. NH3 or SH2 2. H2O or CH4 3. 4. Page 10

CONCEPT: FACTORS AFFECTING ACIDITY- INDUCTIVE EFFECTS Inductive effects describe the stabilizing properties that atoms NOT CONNECTED to the acidic hydrogen have on the overall acidity. Whenever a charge can be over more than one atom, the more stable that charged species will be. Electronegative entities on other parts of the molecule can help spread out the negative change of the conjugate base through inductive effects. EXAMPLE: Draw rough sample electron clouds over the following pairs of conjugate bases of their respective alcohols. Which is more stable? Which alcohol would have had the lower pka?: Factors that increase inductive effects: 1. Strength of the electronegative entities 2. Number of electronegative entities 3. Proximity of electronegative entities EXAMPLE: Without using pka values, which of the following pairs is more acidic? Page 11

CONCEPT: FACTORS AFFECTING ACIDITY- OTHER EFFECTS Resonance Effects: Definition: Whenever the donation of a proton leads to the formation of a possible, that conjugate base will be stable, and the molecule will be a acid. EXAMPLE: Which of the following pairs of acids would have the lower pka? Explain why. Hybridization Effects: Definition: The more s-character in the acid, the closer to the nucleus extra lone pairs will be held to it, making the conjugate base stable. Acidity Trend = sp C H sp 2 C H sp 3 C H EXAMPLE: Which of the following hydrocarbons is the most acidic? Steric Effects: Particularly with alcohols, the more easily solvated the conjugate base is, the more stable it will be. The smaller the R group, the more the alcohol The bigger the R group, the more the alkoxide EXAMPLE: Which of the oxides is the most basic? Page 12

PRACTICE: Would the following reactions go to the right or the left? Draw the products and label ALL species. Provide the full mechanism. a. b. c. Page 13

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