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(a)
Interpretation:
The product formed from the reaction step in accordance with the given curved arrow representation has to be determined. Nucleophile and electrophile in the reaction step also has to be identified.
Concept introduction:
Mechanism of the reaction is the step-by-step description of the process by which reactants are changed into products.
Curved arrows show the bonds that are formed and the bonds that are broken in a reaction.
Curved arrows used to understand a reaction mechanism.
Curved arrows are drawn to show how the electrons move as new covalent bonds are formed existing covalent bonds are broken.
Each arrow represents the simultaneous movement of two electrons from a nucleophile towards an electrophile.
The tail of the arrow is positioned where the electrons are in the reactant; the tail always starts at a lone pair of electron or at a bond.
The head of the arrow points to where these same electrons end up in the product; the arrow always points at an atom or a bond.
Nucleophiles are the electron rich species and it can share at least a pair of electron. Nucleophiles have negative charge.
Electrophiles are electron deficient species; they look for a pair of electrons. An electrophile has a positive charge, a partial positive charge or an incomplete octet that can accept electron.
(b)
Interpretation:
The product formed from the reaction step in accordance with the given curved arrow representation has to be determined. Nucleophile and electrophile in the reaction step also have to be identified.
Concept introduction:
Mechanism of the reaction is the step-by-step description of the process by which reactants are changed into products.
Curved arrows show the bonds that are formed and the bonds that are broken in a reaction.
Curved arrows used to understand a reaction mechanism.
Curved arrows are drawn to show how the electrons move as new covalent bonds are formed existing covalent bonds are broken.
Each arrow represents the simultaneous movement of two electrons from a nucleophile towards an electrophile.
The tail of the arrow is positioned where the electrons are in the reactant; the tail always starts at a lone pair of electron or at a bond.
The head of the arrow points to where these same electrons end up in the product; the arrow always points at an atom or a bond.
Nucleophiles are the electron rich species and it can share at least a pair of electron. Nucleophiles have negative charge.
Electrophiles are electron deficient species; they look for a pair of electrons. An electrophile has a positive charge, a partial positive charge or an incomplete octet that can accept electron.
(c)
Interpretation:
The product formed from the reaction step in accordance with the given curved arrow representation has to be determined. Nucleophile and electrophile in the reaction step also have to be identified.
Concept introduction:
Mechanism of the reaction is the step-by-step description of the process by which reactants are changed into products.
Curved arrows show the bonds that are formed and the bonds that are broken in a reaction.
Curved arrows used to understand a reaction mechanism.
Curved arrows are drawn to show how the electrons move as new covalent bonds are formed existing covalent bonds are broken.
Each arrow represents the simultaneous movement of two electrons from a nucleophile towards an electrophile.
The tail of the arrow is positioned where the electrons are in the reactant; the tail always starts at a lone pair of electron or at a bond.
The head of the arrow points to where these same electrons end up in the product; the arrow always points at an atom or a bond.
Nucleophiles are the electron rich species and it can share at least a pair of electron. Nucleophiles have negative charge.
Electrophiles are electron deficient species; they look for a pair of electrons. An electrophile has a positive charge, a partial positive charge or an incomplete octet that can accept electron.
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Chapter 5 Solutions
Essential Organic Chemistry, Global Edition
- 2) (4 pt) After the reaction was completed, the student collected the following data. Crude product data is the data collected after the reaction is finished, but before the product is purified. "Pure" product data is the data collected after attempted purification using recrystallization. Student B's data: Crude product data "Pure" product data after recrystallization Crude mass: 0.93 g grey solid Crude mp: 96-106 °C Crude % yield: Pure mass: 0.39 g white solid Pure mp: 111-113 °C Pure % yield: a) Calculate the crude and pure percent yields for the student's reaction. b) Summarize what is indicated by the crude and pure melting points.arrow_forwardDon't used hand raitingarrow_forwardDon't used hand raitingarrow_forward
- Don't used hand raitingarrow_forwardShown below is the major resonance structure for a molecule. Draw the second best resonance structure of the molecule. Include all non-zero formal charges. H. H. +N=C H H H Cl: Click and drag to start drawing a structure. : ? g B S olo Ar B Karrow_forwardDon't used hand raitingarrow_forward
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