Chapter 6 - What Are The Mechanisms Of Chemical Change?
Unlocking Nucleophilic Substitution: Reactivity & Mechanisms Explained
Table of content
Definition 🌟
A nucleophilic substitution reaction is when a nucleophile donates an electron pair to an electrophile, forming a bond, but also resulting in one of the bonds in the electrophile breaking to produce a small molecule or leaving group.
🔎 Formula: Nu + R-X → R-Nu + X−
Break it Down 🎨
- Nucleophile (Nu): Donates an electron pair.
- Electrophile (R-X): Has an electron-deficient atom (R) bonded to a leaving group (X). In the reaction, the nucleophile's electron pair forms a bond with R, and X becomes the leaving group.
Real-world Example 🚀
Imagine the nucleophile as a friendly neighbor (let's call her Nancy) wanting to give you a gift (electron pair). You, being the busy electrophile, take the gift but also hand over a box (leaving group) that you no longer need. That's a nucleophilic substitution!
Detailed Example 🔍
- Reactants: Chloroethane (a halogenoalkane) + Aqueous sodium hydroxide
- Reaction: CH3CH2Cl(g) + OH−(aq) → CH3CH2OH(aq) + Cl−(aq)
- What Happened
- The highly electronegative chlorine in chloroethane creates a partial positive charge on the carbon.
- Carbon, now being electron-deficient, is like a magnet for our nucleophile.
- Hydroxide (OH-) jumps in, donates an electron pair, and forms a bond with carbon.
- As they bond, the carbon-chlorine bond breaks, and Cl−, the chlorine, decides to leave (as our leaving group).
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Chapter 6 - What Are The Mechanisms Of Chemical Change?
Unlocking Nucleophilic Substitution: Reactivity & Mechanisms Explained
Table of content
Definition 🌟
A nucleophilic substitution reaction is when a nucleophile donates an electron pair to an electrophile, forming a bond, but also resulting in one of the bonds in the electrophile breaking to produce a small molecule or leaving group.
🔎 Formula: Nu + R-X → R-Nu + X−
Break it Down 🎨
- Nucleophile (Nu): Donates an electron pair.
- Electrophile (R-X): Has an electron-deficient atom (R) bonded to a leaving group (X). In the reaction, the nucleophile's electron pair forms a bond with R, and X becomes the leaving group.
Real-world Example 🚀
Imagine the nucleophile as a friendly neighbor (let's call her Nancy) wanting to give you a gift (electron pair). You, being the busy electrophile, take the gift but also hand over a box (leaving group) that you no longer need. That's a nucleophilic substitution!
Detailed Example 🔍
- Reactants: Chloroethane (a halogenoalkane) + Aqueous sodium hydroxide
- Reaction: CH3CH2Cl(g) + OH−(aq) → CH3CH2OH(aq) + Cl−(aq)
- What Happened
- The highly electronegative chlorine in chloroethane creates a partial positive charge on the carbon.
- Carbon, now being electron-deficient, is like a magnet for our nucleophile.
- Hydroxide (OH-) jumps in, donates an electron pair, and forms a bond with carbon.
- As they bond, the carbon-chlorine bond breaks, and Cl−, the chlorine, decides to leave (as our leaving group).
Unlock the Full Content!
Dive deeper and gain exclusive access to premium files of Chemistry HL. Subscribe now and get closer to that 45 🌟
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