What is a nucleophile?
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What is a nucleophile?
A nucleophile is an electron-rich species that can donate a pair of electrons.
What is a nucleophilic substitution reaction?
A nucleophilic substitution reaction is one in which a nucleophile attacks a carbon atom which carries a partial positive charge.
Complete the general mechanism for nucleophilic substitution.
The completed general mechanism for nucleophilic substitution is:
Complete the equation for the following reaction:
CH3CH2Cl + :OH– →
The equation for the completed reaction is:
CH3CH2Cl + :OH– → CH3CH2OH + :Br–
True or False?
Water can act as a nucleophile.
True.
Water can act as a nucleophile.
True or False?
A nucleophile accepts an electron pair to form a new bond, as another bond breaks producing a leaving group.
False.
A nucleophile donates an electron pair to form a new bond, as another bond breaks producing a leaving group.
What is formed from this mechanism?
CH3CH2OH and :Br- are formed in this reaction.
Give two examples of neutral nucleophiles.
Examples of neutral nucleophiles include:
H2O
NH3
ROH
RNH2
Give two examples of charged nucleophiles.
Examples of charged nucleophiles include:
OH-
CN-
X-
R- (carbonaions)
Why do halogens make good leaving groups?
Halogens make good leaving groups as they form relatively weak bonds with carbon.
True or False?
Haloalkanes will undergo nucleophilic substitution reactions due to the polar C-X bond (where X is a halogen).
True.
Haloalkanes will undergo nucleophilic substitution reactions due to the polar C-X bond (where X is a halogen).
What is heterolytic fission?
Heterolytic fission is the breakage of a covalent bond when both bonding electrons remain with one of the two fragments formed.
In heterolytic fission, a arrow is used to show the movement of a pair of electrons.
In heterolytic fission, a double-headed arrow is used to show the movement of a pair of electrons.
What is H+ in the following mechanism described as?
In the following mechanism, H+ is acting as an electrophile.
What is OH- in the following mechanism described as?
In the following mechanism OH- is acting as a nucleophile.
What is an electrophile?
An electrophile is an electron-deficient species that can accept a pair of electrons.
How does the following mechanism show heterolytic fission?
The mechanism shows heterolytic fission as the more electronegative atom takes both the electrons from the bond to form a negative ion and leaves behind a positive ion.
What is an electrophilic addition reaction?
An electrophilic addition reaction is the addition of an electrophile to an alkene double bond, C=C
Give two examples of neutral electrophiles.
Examples of neutral electrophiles include:
HX (hydrogen halides)
X2 (halogens)
H2O
RX (halogenoalkanes)
Give two examples of charged electrophiles.
Examples of charged electrophiles include:
H+
NO2+
NO+
R+
Propene reacts with steam to form .
Propene reacts with steam to form propanol.
Propene reacts with HCl to form .
Propene reacts with HCl to form chloropropane .
True or False?
Halogens, X2, react with alkenes to form dihalogenoalkanes.
True.
Halogens, X2, react with alkenes to form dihalogenoalkanes.
Why are alkenes susceptible to electrophilic attack?
Alkenes are susceptible to electrophilic attack because of the high electron density of the carbon–carbon double bond
Draw the product formed by the reaction between propene and bromine.
The product formed by the reaction between propene and bromine is:
Define Lewis acid.
A Lewis acid is an electron pair acceptor.
Define Lewis base.
A Lewis base is an electron pair donor.
OH- ions act as Lewis .
OH- ions act as Lewis bases.
True or False?
CN- ions can act as Brønsted-Lowry bases and Lewis bases.
True.
CN- ions can act as Brønsted-Lowry bases and Lewis bases.
In the following reaction, A+ is acting as a Lewis .
A+ + :B- → AB
In the following reaction, A+ is acting as a Lewis acid.
A+ + :B- → AB
In the following reaction, :B- is acting as a Lewis .
A+ + :B- → AB
In the following reaction, :B- is acting as a Lewis base.
A+ + :B- → AB
Why can NH3 act as a Lewis base?
NH3 can act as a Lewis base because it can donate it's lone pair of electrons / electron pair.
True or False?
H+ can behave as a Lewis base.
False.
H+ can behave as a Lewis acid as it can accept an electron pair.
When ammonia, NH3, and boron trifluoride, BF3, react, a bond is formed.
When ammonia, NH3, and boron trifluoride, BF3, react, a coordinate bond is formed.
BF3 is acting as a Lewis .
BF3 is acting as a Lewis acid.
NH3 is acting as a Lewis .
NH3 is acting as a Lewis base.
Does an electrophile behave as a Lewis acid or Lewis base?
An electrophile behaves as a Lewis acid.
Does a nucleophile behave as a Lewis acid or Lewis base?
An nucleophile behaves as a Lewis base.
In the following complex, Cu2+ is acting as a Lewis .
In the following complex, Cu2+ is acting as a Lewis acid.
In the following complex, H2O is acting as a Lewis .
In the following complex H2O is acting as a Lewis base.
What is a ligand?
A ligand is a molecule or ion that forms a co-ordinate bond with a transition metal by donating a pair of electrons to the bond.
What are monodentate ligands?
Monodentate ligands can form one co-ordinate bond to the central metal ion.
Define coordination number.
Coordination number is the number of co-ordinate bonds to the central metal atom or ion.
What are bidentate ligands?
Bidentate ligands can form two co-ordinate bonds.
What three factors does the charge of a complex ion depend upon?
Three factors the charge of a complex ion depends upon are:
The charge of the central metal ion
The charge of the ligands
The coordination number
What is the charge of copper in [CuCl4]2–?
The charge of copper in [CuCl4]2– is 2-.
What is the charge of iron in [Fe(H2O)6]2+?
The charge of iron in [Fe(H2O)6]2+ is 2+.
What is the charge of silver in [Ag(NH3)2]+?
The charge of silver in [Ag(NH3)2]+ is 1+.
What is the coordination number in [Fe(H2O)6]3+?
The coordination number in [Fe(H2O)6]3+ is 6.
What is the charge of the following complex ion?
[Cr(H2O)6]Cl3
The charge on the complex ion is [Cr(H2O)6]Cl3 is 3+ . The chloride ion, Cl-, outside the square brackets must balance against the charge on the complex, [Cr(H2O)6]3+.
What is the charge of the following complex ion?
[CrCl2(H2O)4]Cl.2H2O
The charge on the complex ion is [CrCl2(H2O)4]Cl.2H2O is 1+ . The chloride ion, Cl-, outside the square brackets must balance against the charge on the complex, [CrCl2(H2O)4]+.
What does SN1 stand for?
SN1 stands for Substitution Nucleophilic Unimolecular.
Define the term carbocation.
A carbocation is a carbon atom with a positive charge.
True or False?
The rate of an SN1 reaction depends on the concentration of both the halogenoalkane and the nucleophile.
False.
The rate of an SN1 reaction depends only on the concentration of the halogenoalkane.
What is the rate equation for an SN1 reaction?
The rate equation for an SN1 reaction is rate = k[halogenoalkane].
Define heterolytic fission.
Heterolytic fission is the breaking of a covalent bond where both electrons move to one of the atoms, forming an anion and a cation.
How many steps are involved in an SN1 mechanism?
An SN1 mechanism involves two steps.
What type of halogenoalkanes typically undergo SN1 reactions?
Tertiary halogenoalkanes typically undergo SN1 reactions.
Define the term unimolecular.
Unimolecular means that the rate-determining step of the reaction involves only one molecule.
What is formed in the first step of an SN1 reaction?
In the first step of an SN1 reaction, a carbocation intermediate is formed.
True or False?
The energy profile diagram for an SN1 reaction shows two curves.
True.
The energy profile diagram for an SN1 reaction shows two curves.
What does SN2 stand for?
SN2 stands for Substitution Nucleophilic Bimolecular.
Define the term bimolecular.
Bimolecular means that the rate-determining step of the reaction involves two molecules.
True or False?
The rate of an SN2 reaction depends only on the concentration of the halogenoalkane.
False. The rate of an S<sub>N</sub>2 reaction depends on the concentration of both the halogenoalkane and the nucleophile.
What is the rate equation for an SN2 reaction?
The rate equation for an SN2 reaction is rate = k[halogenoalkane][nucleophile].
Define inversion of configuration.
Inversion of configuration is the process where the stereochemistry of a molecule is reversed during a reaction.
How many steps are involved in an SN2 mechanism?
An SN2 mechanism involves one step.
What type of halogenoalkanes typically undergo SN2 reactions?
Primary halogenoalkanes typically undergo SN2 reactions.
Define the term steric hindrance.
Steric hindrance is the prevention of a reaction due to the spatial arrangement of atoms in a molecule.
What happens to the configuration of the molecule in an SN2 reaction?
In an SN2 reaction, the configuration of the molecule is inverted.
True or False?
The energy profile diagram for an SN2 reaction shows two curves.
False. The energy profile diagram for an S<sub>N</sub>2 reaction shows one curve.
What are three factors that affect the rate of nucleophilic substitution in halogenoalkanes?
Three factors that affect the rate of nucleophilic substitution are:
The nature of the nucleophile
The halogen involved (leaving group)
The structure (class) of the halogenoalkane.
How does the electron density of a nucleophile affect its strength?
The greater the electron density on the nucleophile ion or molecule, the stronger the nucleophile.
True or False?
Negative anions tend to be more reactive nucleophiles than their corresponding neutral species.
True.
Negative anions tend to be more reactive nucleophiles than their corresponding neutral species.
What determines nucleophile strength when nucleophiles have the same charge?
The electronegativity of the atom carrying the lone pair becomes the deciding factor. The less electronegative the atom, the stronger the nucleophile.
Arrange the following nucleophiles in order of increasing strength:
H2O, OH-, CN-, NH3
The nucleophiles in order of increasing strength:
H2O < NH3 < OH- < CN-
What is the relationship between carbon-halogen bond strength and reactivity of halogenoalkanes?
The weaker the carbon-halogen bond, the more reactive the halogenoalkane.
Arrange the halogenoalkanes in order of increasing reactivity:
R-F, R-Cl, R-Br, R-I
The halogenoalkanes in order of increasing reactivity are:
R-F < R-Cl < R-Br < R-I
How does the structure (class) of a halogenoalkane affect its reaction mechanism?
Tertiary halogenoalkanes undergo SN1 reactions.
Secondary halogenoalkanes undergo a mixture of SN1 and SN2 reactions.
Primary halogenoalkanes undergo SN2 reactions.
How does carbocation stability vary?
The stability of carbocations increases from primary to tertiary due to the positive inductive effect of alkyl groups.
What is a nucleophile?
A nucleophile is a chemical species that donates an electron pair to form a chemical bond, acting as a Lewis base.
What is an electrophilic addition reaction?
Electrophilic addition takes place when an electrophile adds across a double bond.
What is an electrophile?
An electrophile is an electron pair acceptor.
True or False?
Ethene reacts with steam in an electrophilic addition reaction.
True.
Water adds across the double bond in ethene in an electrophilic addition reaction.
What catalyst is needed for the electrophilic addition of hydrogen to an alkene?
Ni or Pt is the catalyst needed for the electrophilic addition of hydrogen to an alkene.
True or False?
Electrophilic addition reactions require heating.
False.
Electrophilic addition of halogens and hydrogen halides occurs at room temperature.
What is the first step in the mechanism of electrophilic addition to alkenes?
The first step is the donation of an electron pair to the electrophile.
True or False?
In electrophilic addition, an electron pair is donated from the electrophile to a carbocation.
False.
In electrophilic addition, an electron pair is donated from the nucleophile to the carbocation.
True or False?
The image shows the second step in the electrophilic addition mechanism.
False.
The curly arrow head points in the wrong direction. It should be:
Hydrogen halides have a dipole.
Hydrogen halides have a permanent dipole.
True or False?
Water is a weak electrophile.
True.
Water is a weak electrophile.
True or False?
The electrophilic addition mechanism step below is a fast step.
False
The step shown is the slow step of the mechanism.
What is a carbocation?
A carbocation is a positively charged carbon atom with only three covalent bonds instead of four.
True or False?
The image shows a tertiary carbocation
False.
The image shows a secondary carbocation. A tertiary carbocation should have three carbons attached to the central carbon.
Define the term inductive effect.
The inductive effect is the process by which alkyl groups push electrons towards a positively charged carbon, making the carbocation less positively charged and more stable.
True or False?
Tertiary carbocations are the most stable.
True.
Tertiary carbocations are the most stable as they have three electron-donating alkyl groups which energetically stabilise the carbocation.
What is Markovnikov's rule?
Markovnikov's rule states that in an electrophilic addition reaction of a hydrogen halide, HX, to an alkene, the halogen ends up bonded to the most substituted carbon atom.
What determines the major product in electrophilic addition reactions?
The major product in electrophilic addition reactions is determined by the formation of the most stable carbocation intermediate.
True or False?
Anti-Markovnikov addition favours the formation of the major product.
False.
Anti-Markovnikov addition favours the formation of the minor product.
What is the order of carbocation stability?
The order of carbocation stability is:
tertiary > secondary > primary.
What happens in step 1 of the electrophilic addition mechanism?
In step 1 of the electrophilic addition mechanism, a pair of electrons from the electrophile moves towards the electrophile.
True or False?
The nucleophile bonds to the negative carbon atom of the carbocation.
False.
The nucleophile bonds to the positive carbon atom of the carbocation.
True or False?
The molecule shown is the major product in the addition of HBr to propene:
False.
The product shown is the minor product. The major product is the one in which the halogen joins onto the most substituted carbon, which is the middle carbon.
What is nitration?
Nitration is the substitution of a hydrogen atom from the benzene ring with an electrophilic nitro (-NO2) group.
Define electrophilic substitution reaction.
Electrophilic substitution is a reaction where an electrophile replaces a hydrogen atom on an aromatic ring.
What are the three steps of electrophilic substitution in arenes?
The three steps of electrophilic substitution in arenes are:
Generation of an electrophile
Electrophilic attack
Regenerating aromaticity.
What is an electrophile?
An electrophile is a positive ion or the positive end of a polar molecule that is attracted to electron-rich areas.
True or False?
The nitronium ion (NO2+) is the electrophile in benzene nitration.
True.
The nitronium ion (NO2+) is the electrophile in benzene nitration.
How is the nitronium ion produced in situ in the nitration of benzene?
The nitronium ion is produced in situ by adding a mixture of concentrated nitric acid (HNO3) and concentrated sulfuric acid (H2SO4) at a temperature between 25 and 60°C to the reaction mixture.
True of False?
During electrophilic attack in benzene, a pair of electrons from the electrophile is donated to the benzene ring to form a covalent bond, disrupting the aromaticity in the ring.
False.
During the electrophilic attack step, a pair of electrons from the benzene ring is donated to the electrophile to form a covalent bond.
Define heterolytic cleavage.
Heterolytic cleavage is the breaking of a chemical bond where both electrons in the bond go to one of the atoms involved in the bond.
True or False?
The intermediate in the nitration of benzene is
True.
The intermediate in the nitration of benzene is:
What is the purpose of the third step in electrophilic substitution?
The purpose of the third step in electrophilic substitution is to restore the aromaticity of the benzene ring system.
True or False?
The final step in the nitration of benzene is:
False.
The arrow is the wrong way around, it should be: