GOC in Chemistry
We know that organic Chemistry is the study of carbon compounds. However, organic Chemistry comes under GOC. Now, what is GOC?
GOC stands for General Organic Chemistry .
General organic Chemistry is the gateway to organic Chemistry which talks about the following things:
How does any reaction happen?
Determines which reaction occurs at pace among the two reactions.
Probability of any short-lived species, i.e., reaction intermediate forming a product.
Determines whether the reaction is acidic or basic.
To understand GOC, it’s necessary to know IUPAC nomenclature.
GOC Chemistry
General Organic Chemistry Class 11 includes the following organic Chemistry topics that we will study in this article:
Electron displacement effects
Species: Intermediates between the reactions
Reaction mechanism
Electron Displacement Effects
The types of electron displacement effects are:
The inductive effect (An important concept)
Resonance effect
Hyper-conjugation effect or Baker-Nathan effect
The effects mentioned above are permanent except for the electromeric effect.
Let’s discuss these one-by-one
Inductive Effect
The inductive effect is of two types:
- I effect
+ I effect
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Here, X is an electronegative element. So a partial negative charge δ develops on X.
This effect is also known as an electron-withdrawing effect or a negative inductive effect. Since Y is less electronegative than C, δ develops on Y. Here, Y is an electron-donating group. That’s why it is known as the electron-donating inductive effect.
Acidic Order
\[HA\rightleftharpoons H^{+}+A^{\Theta }\]
Let’s take an example to determine the acidic order among the four species:
(CH3)3 - C -OH
H - C - (CH3)2 - OH
CH3 - CH2 - OH
CH3 - OH
Here, (CH3)3 - C -OH has a tertiary alkyl group, and three CH3 gives electrons to the C-atom, and this C-atom, in turn, displaces electrons to the O-atom.
Here, O is already electronegative, on getting more electrons in its cloud,
(CH3)3 - C -OH becomes unstable because of which O doesn’t allow the release of H+ ions.
In H - C - (CH3)2 - OH, chances of the release of H+ ions are there but very less in number.
However, in CH3 - CH2 - OH is more and the maximum release of H+ ions in CH3 - OH.
According to the Inductive Effect Order
-C(CH3)3H - C - (CH3)2 > -CH2 - CH3 > - CH3
The acidic order of these elements is 4 > 3 >2 >1.
This means, the more the + I effect is, the acidic nature decreases.
Resonance Effect
The resonance effect is a hypothetical phenomenon in which the shifting/displacement or movement of π-electrons occurs within the compound. It is an intra-molecular phenomenon that occurs on a double bond only. As we can see in the diagram below:
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All these resonating structures are imaginary.
The resonance occurs when there is a conjugation, i.e.,
π-bond, σ-bond, and ⊕/vacant orbital
CH2 = CH - CH2⊕ ↔️ CH2⊕ -CH = CH2 (Hybrid structure - CHδ+2 = CH= CH2δ+
π-bond, σ-bond, and lone pair
π-bond, σ-bond, and free radical
π, σ, π-bond
lp, σ-bond, and ⊕
Hyper-Conjugation Effect
It is a no-bond resonance, also known as a σ-bond p-orbital resonance.
Hyper-conjugation in the following species:
Carbocation: CH3 - CH2⊕
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Free Radical: CH3- CH2.
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Alkene: CH3 - CH = CH2
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Carbanion: CH3 - CH2⊕
Practically, hyper-conjugation doesn’t take place in carbanion because of the absence of a vacant orbital. Therefore, the inductive effect decides its stability.
Reaction Intermediate
The reaction intermediates formed during the reaction are hypothetical. Moreover, they have a brief period, i.e., 10−6sec- few seconds.
Reaction intermediates decide the final product and one of the most famous reaction intermediates is the ‘Carbocation’. After carbocation, we have:
Carbanion
Free radical
Carbenes
Nitrenes
Benzene.
We will study Carbocation. Let’s take an example for the same:
H3C - X where X is an electronegative element.
X captures both the electrons between itself and the C-atom. Then,
H3C - X → - X-→ H3C⊕
Here, the species, H3C⊕ is a carbocation.
This means an atom more electronegative than a C-atom breaks the bond and captures the electrons from it and goes away. This is how carbocation forms. Since C and X are different, this is Heterolysis.
Reaction Mechanism
This will include the following:
Any reaction occurring has such type of expression: S + R = P, i.e., S and R forms P.
Where,
S = substrate or reactant, which is the main molecule on which reaction happens or the changes occur. The following effects can happen in the substrate, i.e.,
Inductive Effect
The resonance or the mesomeric effect.
R = Attacking reagent; this R makes changes in the substrate.
P = Product
Types of attacking reagents are:
Electrophile
Nucleophile
Electrophile
An electrophile is an electron-deficient species that attacks at the electron-rich center. The types of electrophile are:
Positively Charged Electrophile
Examples:
H⊕, Cl⊕,Br⊕,Cl⊕,H3C⊕
2. Incomplete Octet Electrophile (neutral)
The strength order of bonding: BF3 > BCl3 > BBr3 > BI3
The strongest bond forms in BF3 because F is smaller in size and wishes to share the electron with B to complete its octet.
Nucleophile
A nucleophile is an electron-rich species that attacks the electron-deficient center.
Types of nucleophiles
Neutral Nucleophiles
H2O, NH3 , RNH2, R2NH , R3N, ROH , RCOOH, RSH, and PR3
Charged Nucleophiles
RO-, -NH2, RNH , R2N- , HS- , RS- , RSe- , CL- , Br- , I- , F- , CN- , -OH , RCO2-
Example for two types of nucleophiles
JEE General Organic Chemistry (GOC)
GOC (General Organic Chemistry ) is a course that covers the fundamental ideas of organic Chemistry . In the study of somewhat complex topics, a good comprehension of the concepts covered by GOC is essential (such as the mechanisms of named reactions). Keeping this in mind, this essay explains all general organic Chemistry principles in a clear and straightforward manner. To get all of the notes in this article, click the link below (in PDF format).
GOC Important Topics
The following are some of the most important subjects in general organic Chemistry :
Nucleophiles and Electrophiles
(+I and -I Effects) Inductive Effect
(+E and -E Effects) Electromeric Effect
Hyperconjugation
Mesomeric Influence
The Resonance Effect and Resonance
Stereoisomerism and structural isomerism are two types of isomerism.
GOC Fundamentals
Components of an Organic Reaction in General
The following is an example of a typical reaction mechanism:
Reactants + Catalyst or Energy → Intermediate (Transition State) → Product
The production of an intermediate from the chemical reaction between the reactants is aided by proper reaction conditions. These intermediates are usually unstable, and they react swiftly to produce a finished product.
An organic reaction's reactants are categorized as follows:
Reagents are reactive chemical species that start a reaction by attacking another.
In an organic reaction, the substrate is the species that is attacked by the reagent.
The location of reagent assault varies depending on whether the reagent is electrophilic or nucleophilic:
Electrophiles are electron-deficient organisms that assault the substrate in an area with a high electron density.
Nucleophiles are entities with a lot of electrons that like to donate them. Nucleophiles usually attack the reagent at an area with a low electron density.
Bond Cleavage and Reaction Intermediates
Existing chemical bonds are broken and new chemical bonds are formed in most chemical processes. A covalent bond can be broken in two ways:
Homolytic Fission occurs when a covalent connection is broken and each participating atom is left with one unpaired electron. Free radicals are chemical entities that are formed as a result of homolytic fission. They are quite receptive (due to their unstable electron configurations).
Heterolytic Fission occurs when a covalent connection is split such that one atom maintains both electrons while the other atom retains none. The creation of an ion pair — a positively charged cation and a negatively charged anion – is a feature of heterolytic fissions.
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FAQs on JEE Important Chapter - General Organic Chemistry (GOC)
1. Is GOC important for JEE?
Yes, GOC is very important for exams like NEET, JEE and many other competitive examinations. As it covers the entire fundamental concepts of organic Chemistry , you need to have a thorough knowledge. You need to spend considerable time understanding the Ins and Outs of this topic and solve problems related to the same. Then only you can gain mastery over it. Practice daily with the help of teachers at Vedantu. Register for the online classes now.
2. How can I master GOC for JEE?
Following are the tips for mastering GOC for JEE: Build a grip on the fundamental concepts of General Organic Chemistry or GOC. Understand the reaction mechanisms and practice these mechanisms.
For understanding GOC, the knowledge of IUPAC nomenclature becomes important. Spend considerable time, and practice a lot of problems each day. Organic Chemistry can be tough for some and hence it requires a lot of dedicated study hours. Learn and practice with the help of a free pdf of General Organic Chemistry (GOC) For JEE.
3. Is Organic Chemistry Difficult?
A famous quote says that many things seem unachievable only as long as one does not attempt them. The same is with organic Chemistry . All it requires is 3Ps: patience, persistence and practice. Dedicated study hours can contribute to making you understand the concepts behind organic Chemistry . Organic Chemistry can be like mathematics and hence requires learning and daily practice. Study with the help of professionals at Vedantu. You can also register for the online classes provided by us.
4. Is NCERT enough for JEE Main?
NCERT builds up your base. However, to be up-to-date with JEE Main preparation, you need to look out for external resources like online tutorials. NCERT is also considered as a syllabus book and cannot be enough for the preparation of the JEE entrance examinations. JEE is conducted at a national level and requires high-level competition from all over India. Students are required to study as much as possible with the help of guidebooks. You will be able to clear the entrance with dedicated study hours and practice.
5. Is the General Organic Chemistry (GOC) For JEE helpful?
Yes, the General Organic Chemistry (GOC) For JEE is helpful. It can help students to know and get a general idea about general organic Chemistry . The carbon-based or organic Chemistry in class 11th can be difficult for many students. It gets complex at every level and hence requires a dedicated study pattern. You will only be able to clear the JEE of organic Chemistry with regular practice and study. If you find the subject difficult, connect with the teachers at Vedantu.