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Study Guides
Structure and bonding
Acid-base reactions
Alkanes
Cycloalkanes
Stereochemistry
Substitution reactions
Ranking molecules by SN1 reactivity
Alkenes and elimination reactions
Addition reactions
Alkynes
Radical reactions
Study Guides
Structure and bonding
Acid-base reactions
Alkanes
Cycloalkanes
Stereochemistry
Substitution reactions
Ranking molecules by SN1 reactivity
Alkenes and elimination reactions
Addition reactions
Alkynes
Radical reactions
Study Guides
Structure and bonding
Identifying the major and minor resonance contributors for a given molecule
Acid-base reactions
Ranking acids by strength without a pKa table
Ranking bases by strength without a pKa table
Calculating the overall equilibrium constant, K, for an acid-base reaction using pKa values
Predicting the position of equilibrium without using pKa values
Alkanes
Cycloalkanes
Stereochemistry
Substitution reactions
Ranking molecules by SN1 reactivity
Ranking molecules by SN2 reactivity
Ranking carbocations by stability
Ranking nucleophiles by relative strength
Predicting the products of SN1 reactions
Predicting the products of SN2 reactions
Alkenes and elimination reactions
Ranking alkenes by stability
Predicting the reaction pathway(s): SN1, SN2, E1, or E2
Predicting the products of E2 reactions – Zaitsev vs Hofmann
Predicting the products of E1 reactions
Predicting the products of E2 reactions – Cyclohexane
Addition reactions
Predicting the products of alkene addition reactions: Markovnikov vs anti-Markovnikov
Alkynes
Radical reactions
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Structure and bonding
Identifying the major and minor resonance contributors for a given molecule
Acid-base reactions
Ranking acids by strength without a pKa table
Ranking bases by strength without a pKa table
Calculating the overall equilibrium constant, K, for an acid-base reaction using pKa values
Predicting the position of equilibrium without using pKa values
Alkanes
Cycloalkanes
Stereochemistry
Substitution reactions
Ranking molecules by SN1 reactivity
Ranking molecules by SN2 reactivity
Ranking carbocations by stability
Ranking nucleophiles by relative strength
Predicting the products of SN1 reactions
Predicting the products of SN2 reactions
Alkenes and elimination reactions
Ranking alkenes by stability
Predicting the reaction pathway(s): SN1, SN2, E1, or E2
Predicting the products of E2 reactions – Zaitsev vs Hofmann
Predicting the products of E1 reactions
Predicting the products of E2 reactions – Cyclohexane
Addition reactions
Predicting the products of alkene addition reactions: Markovnikov vs anti-Markovnikov
Alkynes
Radical reactions
Structure and bonding
Acid-base reactions
Alkanes
Cycloalkanes
Stereochemistry
Substitution reactions
Ranking molecules by SN1 reactivity
Alkenes and elimination reactions
Addition reactions
Alkynes
Radical reactions
Log in
Sign Up
Study Guides
Structure and bonding
Acid-base reactions
Alkanes
Cycloalkanes
Stereochemistry
Substitution reactions
Ranking molecules by SN1 reactivity
Alkenes and elimination reactions
Addition reactions
Alkynes
Radical reactions
Study Guides
Structure and bonding
Acid-base reactions
Alkanes
Cycloalkanes
Stereochemistry
Substitution reactions
Ranking molecules by SN1 reactivity
Alkenes and elimination reactions
Addition reactions
Alkynes
Radical reactions
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