Chapter 6 (Reactions of Alkenes)
three carbons
3 (tertiary) means that there are _________ ___________ connected to the central atom
resonance; weak base
H2SO4 (instead of HCl, HI, HBr, etc) is used as the acid in acid-catalyzed hydration because sulfate ion has _____________ and is a _________ _________, therefore it does not react/add in the reaction
electron sink
an atom that accepts a new bond or lone pair of electrons; is what an arrow points toward in an organic chem mechanism
bond; nucleophile; electrophile
4 General Electron Movements in Organic Reaction Mechanisms: 1. Make a new ____________; arrows come from electron rich "source" (____________) and point towards an electron deficient "sink" (____________)
break; hypervalent; stable
4 General Electron Movements in Organic Reaction Mechanisms: 2. _________ an existing bond; do this to avoid ___________ atoms and to create relatively __________ species (either intermediates or products)
proton; acid; base
4 General Electron Movements in Organic Reaction Mechanisms: 3. Add a __________; typical if no obvious nucleophile and electrophile and there is a lot of strong _________ or strong _________ present
remove; strong
4 General Electron Movements in Organic Reaction Mechanisms: 4. _________ a proton; typical if no obvious nucleophile and electrophile and there is a lot of __________ acid/base present
positive
BDE has to be ______________ because its energy put into the molecule
3; 2; 1
__________ carbocation is more stable and requires a lower activation energy for its formation than a ________ carbocation; and a ________ carbocation is in turn more stable/requires less energy than a ______ carbocation
carbocations
______________ are a species in which a carbon atom has only six electrons in its valence shell and bears a positive charge; are classified as primary, secondary and tertiary depending on how many carbons are bonded to carbon bearing positive charge
racemic; possibility
a ____________ mixture can be made if the products have more then one ________________ hence they have enantiomers that could form (both have 50/50 chance of forming
electron source
a bond or lone pair of electrons usually an area of relatively high electron density, that serves as the origin of a mechanism arrow; interacts with an electron sink in an organic mechanism
rearrangement
a change in connectivity of the atoms in a product compared with the connectivity of the same atoms in the starting material
glycol (aka vicinal diol)
a compound with hydroxyl (-OH) groups on adjacent carbons
reactive intermediate
a high-energy species, formed between two successive reaction steps, that lies in an an energy minimum between the two transition states
faster
a more stable carbocation (3>2>1) forms __________ than a less stable carbocation intermediate
addition reaction
a reaction in which two atoms or ions react with a double bond, forming a compound with the two new groups bonded to the carbons of the original bond
carbocation
a species in which a carbon atom has only six electrons in its valence shell and bears a positive charge
delocalized; stable
a tertiary intermediate (carbocation) is more stable because of the positive charge (+) is spread; electrons are _____________ and spread out, making it more ___________ due to the partial overlap of sigma bonding orbital with empty 2p orbital (hyper-conjugation)
trans diaxial; axial
addition of chlorine or bromine to cyclohexene and its derivatives gives a ________ _________ product because only _________ positions on adjacent atoms of a cyclohexane ring are anti (one up; one down aka one wedge, one dash) and coplanar
acid-catalyzed hydration
addition of water across a double bond in the presence of an acid; obeys mark's rule
most stable; atom; group
after forming a carbocation as an intermediate in a mechanism, make sure that the positive charge is on the __________ _________ carbon (tertiary>secondary>primary), if not see if an ________ or __________ (typically alkyl group or hydrogen) can be rearranged/shifted to form a more stable carbocation
chiral centers; enantiomers
after forming the product of electrophilic addition; look to see if any __________ _________ were created-- if so investigate if any stereoisomers (like ______________ with inverted SC) can be formed or if the compound is ___________ (same)
chiral centers; stereoisomers; enantiomers; meso
after predicting product of reaction or finding the product through the mechanism, look to see if there are _______ _________ in the products; if yes then draw all the possible _____________ of the molecule then examine if they are ____________ (form either) or ______________ (same molecule)
regioselectivity
an addition or substitution reaction in which one of two or more possible products is formed in preference to all others that might be formed; obeys marks rule or anti marks rule ex: H-Cl has H form to side with more H's
tertiary; 3
an intermediate will be more stable if it's positive charge is on a ______________ carbon meaning its bonded to ______ other carbons
alkyl; electron-deficient; positive
carbocation rearrangement usually occurs when an _________ group (single bonded carbons) or a hydrogen migrates, each with with its bonding electrons, from an adjacent atom to the ____________-____________ atom (to the atom bearing a __________ charge)
back; wedges
figure out stereochemistry, by seeing how intermediate is oriented (usually front) then attacking from the __________ aka displays __________ on structural image (happens if ions/atoms are very large like Br or Cl)
none; syn (same side); OH, OH
for a oxidation of alkenes to glycol (vicinal diol) reaction 1. OsO4 2.NaHSO3, H2O regioselectivity: _________________ stereoselectivity: ______________ product groups: ______________
mark's rule; anti; H,OH
for a oxymercuration-reduction reaction (addition of H and OH) 1. Hg(OAc)2, H2O2 2.NaBH4: regioselectivity: _________________ stereoselectivity: ______________ product groups: ______________
ozone (O3); negatively; positively; concerted; molozonide
for a ozonolysis (clevage of alkene to make aldehydes and /or ketones) 1. O3, 2. (CH3)2S: 1. when an alkene is treated with ___________ (which has resonance), the ___________ charged O (nucleophile) attacks DB and the DB (electrophile) attacks neutral O and bond between O and central _____________ charged O breaks (this is ______________ meaning it happens simultaneously) to form the ____________ intermediate
cleavage; aldehyde; ketone
for a ozonolysis (clevage of alkene to make aldehydes and /or ketones) 1. O3, 2. (CH3)2S: 2. the relocating VE in molozonide results in ____________ of one carbon-carbon and one oxygen-oxygen bond; the two products are a ___________ or/and a ____________
CH2Cl2 (dichloromethane)
for addition of bromine and chlorine to an alkene, ____________ is usually used an an inert solvent to carry out these reaction
obeys mark's rule; none (scrambled); X,H
for addition of hydrogen halide, HX (X=Cl, Br, I) reaction: regioselectivity: _________________ stereoselectivity: ____________ product groups: __________
obeys Mark's Rule; scrambled; OH; H
for an addition of water, acid-catalyzed hydration: H2O/H2SO4 regioselectivity: ________________ stereoselectivity: _____________ produces product groups of _________ and ________
OsO4; resonance; osmate ester; syn
for an oxidation of alkenes to glycol (1.OsO4 2.NaHSO3, H2O): 1. an O atom from __________ (which expresses _____________ making it highly electrophilic because positive charge is delocalized) attacks DB while the DB attacks another O atom from OsO4 (concerted) which forms an _________ ___________ (or cyclic) intermediate attached in a _______ stereoselectivity
NaHSO3; broken; OH; syn
for an oxidation of alkenes to glycol (1.OsO4 2.NaHSO3, H2O): 2. ____________ is added to osmate ester intermediate and the bonds between O-Os attached to both carbons on either side is __________ (forming cis glycol) takes its place on each side the stereoselectivity of the product is _________ (both dashes, both wedges)- if product has chiral centers then look to see if form enantiomers or its meso
wedges; dashes
for chair conformations, ___________ on a group means up and __________ on a group means down `
down
for chair conformations, if you have an axial up, then equatorial must be ____________
planar hexagon representation
for cylcloalkenes, in order to visualize the attack of the Br or Cl ion to the intermediate formed from halogenation, you should draw the ____________ ____________ ______________ of the cyclo molecule
anti-marks; syn; H and OH
for hydroboration-oxidation (addition of H and OH), 1.BH3 2.H2O2, NaOH: regioselectivity: _________________ stereoselectivity: ______________ product groups: ______________
oxidation; reduction
for oxidation/reduction reactions of alkenes: __________= adding O to C; removing H from C __________= subtracting O from C; removing H to C
oxygen; DB; zig zag
for ozonolysis (clevage of alkene to make aldehydes and/or ketones): the double-bonded __________ (that makes up ketone/aldehyde products) is added/formed where original __________ split; *it helps when drawing products to number carbon chains and rotate images so molecule appear as _________ ________ carbon chains with attached double bonded O and other sub.*
none; anti; coplanar; OH H
for the addition of halogens reaction (Br2 and Cl2): regioselectivity: _________________ stereoselectivity: ______________ (and _________ for cyclohexenes bc creates trans diaxial) product groups: ______________
nucleophile; electrophile; breaking
for the electrophilic addition of a HX (hydrogen halides): 1. make a new bond between a _____________ (pi/DB) and an _____________ (add a proton- will be H); while simaltaneously _________ the bond between the H-X to result in formation of an organic cation and halogen ion
nucleophile; electrophile; ion; positively
for the electrophilic addition of a HX (hydrogen halides): 2. make a new bond between a ____________ and a ___________ (negatively charged ________ will form bond with ___________ charged atom on cation to form final product
mark's rule; anti; X,OH; X; H2O
for the halohydrin formation reaction (addition of HOCl or HOBr), H2O and Br2 or Cl2: regioselectivity: _________________ stereoselectivity: ______________ product groups: ______________ _________ attacks first to produce halonium ion then ________ attacks twice to form OH
one long chain; double bonded
for the ozonolysis (addition of O3, (CH3)2S) to cyclohexenes, the ring splits into _______ __________ ________ with two _________ __________ O on either side
carbocation rearrangement; 1,2 hydride; 1,2 methyl
if a more stable carbocation can form, then it will form through _____________ ____________ via a ______________ or _____________ shift
different; wedge; dash
if a reaction has a anti stereochemistry then the substitutes are added on ____________ planes of the molecule, hence they will have one __________ and one ___________ orientation
same; wedges; dashes
if a reaction has a syn stereochemistry then the substitutes are added on the __________ plane of the molecule, hence they will both have the orientation of __________ or __________
syn
if a reaction has the stereoselectivity of _________ then the two groups must be added across the same side of the double bond (only get one set of enantiomers)
anti
if a reaction has the stereoselectivity of ___________ then the two groups must be added across opposite sides of the double bond (only get one set of enantiomers)
hydrogen
if carbocation's positive charge is not on the most stable carbon and shifting a methyl would make the more stable option go away, shift a _____________ instead
meso; one
if the product formed has a chiral center but ends up being __________, only draw _________ conformation not both
first step
in a catalyzed reaction, the catalysis will most likely do ___________ __________ (acid in acid-catalyzed reaction will add first)
HgOAc+; DB; rearrangement
in a oxymercuration-reduction reaction (1. Hg(OAc)2, H2O2 2.NaBH4): first ___________ (electrophile) forms a brided mercurinium ion intermediate after ________ attacks it (intermediate occurs without ____________ bc it is a resonance hybrid but has character of bridged mercurinium ion)
H; anti
in a oxymercuration-reduction reaction (1. Hg(OAc)2, H2O2 2.NaBH4): lastly, C-HgOAc is reduced to a C-_____ bond after the addition of NaBH4 in flask; the final stereoselectivity is _________ so enantiomers may form (one dash, one wedge) if there are chiral centers
H2O; more; OH
in a oxymercuration-reduction reaction (1. Hg(OAc)2, H2O2 2.NaBH4): second ____________ anti attacks the __________ substituted carbon to open the three-membered ring of intermediate mercurinium ion then a second H2O removes H from O+-H to create the group __________
acid; hydronium; water
in acid catalyzed hydration, react the initial reactant with the ___________(___________ ion) first then react with _________ (twice to form C-OH bond then again to remove O-H bond)
mark's rule; none (scrambled); OH, H
in addition of water, acid catalyzed hydration (H2O; H2SO4 (H3O+)): regioselectivity: _________________ stereoselectivity: ______________ product groups: ______________
acid; hydronium
in an acid catalyzed hydration, the _________ (the __________ ion) is a product of the reaction since it acts as a catalysis (never disappears)
boron; less; concerted
in hydroboration-oxidation reaction (1. BH3, 2.H2O2, NaOH): first __________ adds to ________ substituted carbon (anti-mark's rule) and ________ adds to more sub. carbon; this happens simultaneously (aka ____________) and from the _________ face of the double bond (syn)
BH2; OH; same; syn
in hydroboration-oxidation reaction (1. BH3, 2.H2O2, NaOH): second __________ (remaining in flask after DB attacked B of BH3 and H adds to more sub C of DB) is converted into/replaced by __________ (when NaOH and H2O2 added); this is done in the _________ plane bc the reaction has a ________ stereoselectivity and enantiomers may be created (both will have either both wedges or both dashes on subs.)
OH
in hydroboration-oxidation reaction (1. BH3, 2.H2O2, NaOH): in the second step of the mechanism, BH2 is converted/replaced by __________ (*don't need to know exactly how this happens yet*)
electron deficient
in hydroboration-oxidation reaction (1. BH3, 2.H2O2, NaOH): the boron in BH3 is ___________ ____________ making it act as an electrophile (with partial positive charge) and gets attacked by _________ nucleophile on alkene while H from BH3 adds to DB
mark's rule
in the addition of HX, H2O, or ROH to an alkene, hydrogen adds to the carbon of the double bond having the greatest number of hydrogens
equal probability; more substituted; character; longer
in the case of a bromonium or chloronium ion derived from a symmetrical alkene (same amount of subs. on both sides), both carbons are attacked by H2O during halohydrin formation with ____________ ____________; in the case of unsymmetrical alkenes, the H2O attacks on the __________ _________ carbon because it has more carbocation _____________ and the C-X bond to the more substituted carbon of the halonium ion is __________ than the bond of the less substituted so breaking this bond is easier to open 3-membered ring
hyperconjugation
interaction of electrons in a sigma bonding orbital with the vacant 2p orbital of an adjacent positively charged carbon
electrophile
meaning electron loving, seeking a region of high electron density; electron sink that can accept a pair of electrons to form a new covalent bond; (lewis acid)
nucleophile
meaning nucleus loving; seeking a region of low electron density; can donate a pair of electrons to form a new covalent bond; (lewis base)
ring strain
rearrangement can also be done under other special circumstances such as where the relief of ________ _______ provides driving force or rearrangement
less; more
rearrangement is done to make _________ stable carbocations (such as secondary and primary) into ____________ stable carbocations (like tertiary)
acid-catalyzed hydration; more
rearrangements can also happen in _________-__________ ______________ of alkenes, when the carbocation formed in first step can rearrange to a more ___________ carbocation
rearrangement; OH, H; rearrangment; less
some of the same molecules can have multiple reaction conditions (such as oxymercuration-reduction and acid-catalyzed hydration- both add _______ and ______ product groups) except acid-catalyzed hydration can require carbocation ________________ which can mess up products hence making it __________ preferable as compared to oxymercuration-reduction
syn
stereochemistry in which groups add on same side of DB (both dashes, both wedges)
anti
stereoselectivity in which groups add on opposite sides of DB(one dash, one wedge)
hydration
the addition of water to alkene
bond dissociation energy
the amount of energy required to break a bond into two radicals in the gas phase at 25 degrees C, A-B-->A~ + B~
function; nucleophile; base
the difference between nucleophiles and bases is a difference of __________ in which you have to determine if a base acts as a ______________(measure of kinetics- rate of reaction) or as a _________ (measure of stability/pos of equilibrium- thermodynamics)
X; break; halogen; DB; bridged ion; two; positive
the first thing that happens during a halohydrin (as well as just addition of halogens) formation reaction (H2O and X2: Cl2 or Br2) the DB of the alkene attacks the one of the _______ atom's and this causes the bond between X-X to _______, at the same time this X atom attacks the ________ to create the _________ ________ intermediate; in this intermediate ion the X now has _______ lone pairs and a __________ charge
BDEreactants-BDEproducts=Hbreak-Hmake
the formula for calculating ΔHrxn is:
reduction
the gain of electrons; alternatively either the gain of hydrogen, loss of oxygens, or both (RIG- reduction is gain)
osmate
the intermediate formed during oxidation of alkene to glycol is ___________ (ester or cyclic)
molozonide
the intermediate formed during ozonolysis is called an ______________
oxidation
the loss of electrons; alternatively either the loss of hydrogens, the gain of oxygens, or both (OIL- oxidation is loss)
increase; stronger; stable
the net result of hyperconjugation is an _________ of electron density on the cationic carbon, thereby delocalizing the positive charge onto the adjacent alkyl groups; as more alkyl groups are bonded to the carbocation, the hyperconjugation effect becomes ____________ therefore making the carbocation more __________
inductive effect
the polarization of the electron density of a covalent bond resulting from the electronegativity of a nearby atom; this is one of the reasons why the more alkyl groups that are added to cationic carbon increases the stability of the cation because the positive charge is more delocalized with each group
H2O; more substituted; more
the second thing that happens during a halohydrin formation (different than addition of halogens) is __________ attacks the ________ __________ carbon of the bridged halogen ion and opens the three-memebered ring (the H2O attacks instead of the X because there is __________ of H2O than X in the flask)
oxidation of alkenes to glycol (vicinal diol)
what reaction is this?
oxymercuration-reduction
what reaction is this?
hydroboration-oxidation
what type of reaction is this?
frontside; backside; anti; opposite
when dealing with how to attack a three-membered ring ion formed as an intermediate (such as bromonium or chloronium) usually the first attack is from the _____________ therefore the next attack has to be from the ___________ which is what gives the product an ___________ stereoselectivity in that the groups are in ____________ planes (one dash, one wedge)
wedge; dashes; enantiomers
when forming products of electrophilic addition from intermediate, see if the electrophile forming bond with nucleophile could attack from the back (making it __________ orientation) or from the front (making it a __________ orientation) then see if a chiral center was created, if so then the products could be a pair of ______________ (could also be meso)
flask
when trying to do a mechanism for adding in multiple compounds, ask yourself what is in the _________ together after each step and see if these species react
it flips
when we flip a reaction, what happens to ΔH?
bridged halonium ion; opposite; anti; coplanar
when you add Br2 or Cl2 to a alkene, the intermediate that forms is a ___________ _____________ ________ with a positive charged X atom bonded to both carbons of the former DB; the additional Br then attacks from the ___________ side of the bridge to open up the 3-membered ring to give the _________ (stereochemistry) product which has the halogens as ____________ (in the same plane)
nucleophile; electrophile
whenever one compound uses its electrons to attack another compound, we call the attacker the ___________ and we call the compound being attacked the _______________
addition of halogens (Br-Bromination and Cl-Chlorination)
which reaction is this?
enthalpy; small
ΔH (which is ___________) can be used to predict spontaneity if ΔS is ___________
