Organic Chemistry from Basic to Expert Like Pro for any exam from Udemy

What's inside

Learning objectives

You will learn basic fundamental of organic chemistry
You will learn nomenclatures of organic compounds and molecules
You will learn about electronic effect in the covalent bond in the organic molecule
You will learn about inductive effect ,hyper conjugation , resonance , mesomeric effect comparison
You will learn about acidic strength , basic strength comparison with order
You will learn how to check stability of carbonation , stability of carbonation , stability of free radicals
You will learn how to calculate r and s configuration
You will learn how to draw all the conformers
How to calculate total number of isomers

You will learn about reactions of alkane , alkene , alkyne reactions
You will learn about all the substitution , elimination reactions
You will learn about the reactions having reaction intermediates carbocation , carbanion , free radical , carbene , nitrene and benzyne
You will learn about reactions of alcohol , alkyl halide , ether , carbonyl compound , carboxylic acid , amines
You will learn about bio molecules , polymer , chemistry in everyday life
You will learn about how to get a desired product after a series of reactions
Will able to solve all the advanced level problems in high school chemistry , bs in chemistry 1st year , sat,jee mains , jee advanced , neet , bitsat etc.
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You will learn basic fundamental of organic chemistry
You will learn nomenclatures of organic compounds and molecules
You will learn about electronic effect in the covalent bond in the organic molecule
You will learn about inductive effect ,hyper conjugation , resonance , mesomeric effect comparison
You will learn about acidic strength , basic strength comparison with order
You will learn how to check stability of carbonation , stability of carbonation , stability of free radicals
You will learn how to calculate r and s configuration
You will learn how to draw all the conformers
How to calculate total number of isomers
You will learn about reactions of alkane , alkene , alkyne reactions
You will learn about all the substitution , elimination reactions
You will learn about the reactions having reaction intermediates carbocation , carbanion , free radical , carbene , nitrene and benzyne
You will learn about reactions of alcohol , alkyl halide , ether , carbonyl compound , carboxylic acid , amines
You will learn about bio molecules , polymer , chemistry in everyday life
You will learn about how to get a desired product after a series of reactions
Will able to solve all the advanced level problems in high school chemistry , bs in chemistry 1st year , sat,jee mains , jee advanced , neet , bitsat etc.
Show more
Show less

Syllabus

You Will learn all the Advanced Technique to name any Compound by the Rule Provided by IUPAC or Derived Name or Common name .

Representation and Hybridization

How do we represent the Organic Molecule molecule and several ways to represent the molecule .

Degree of Carbon and Hydrogen and also degree of different Functional Groups .

Degree of serval Functional Groups like Allkyl Halide , Halogen and Amines explained .

Degree of Unsaturation using Structural Formula and Molecular Formula .

Definition of Homologous series and classification of Organic compound .

Overview of IUPAC nomenclature and the way to write an Organic Compound and the position of prefix and suffix .

Rules to write the naming of compound and lowest Locant and lowest sum rule and numbering of carbon chain .

Naming of Complex Substituents , which are the part of Side chain but also have the Separate Naming called Complex Naming .

Naming of Cyclic Alkane with substituents also Called Cycloalkane .

Naming of Hydrocarbon which includes Alkene and Alkynes Naming .

Nomenclature of Cycloalkenes which also tells to select to main carbon chain rule .

Nomenclature of Alcohol which also includes cyclic compounds and normal carbon chain .

Nomenclature of Aldehyde which includes Special naming too which the carbon of aldehyde does not include in main carbon chain .

Introduction to General Organic chemistry , which is pillar of Organic Chemistry , involves Electronic Effect .

All Types of Inductive Effect and Their order of effect for both positive Inductive and Negative Inductive Effect .

stabilities of Reaction Intermediate , Carbocation , Carbanion and Carbon Free Radical .

Acidic Strength under the Application of Inductive Effect .

Basic Strength under the Application of Inductive Effect .

Basic Definition of Resonance and it’s Characteristics .

Condition of Resonance and Rules for writing the resonating structure and one of type of conjugation which includes a positive charge with double bond .

Type of conjugation which includes a negative charge and lone pair with double bond .

Type of conjugation which includes a Free Radical and with double bond .

Back Bonding with the Type of conjugation and Types of Resonating Structured which are equally contributing and Equally and Unequally Contributing .

Comparison of Bond Order which includes in both Equally Contributing and Unequally Contributing .

Resonance which is in the Ring of Continuous and Conjugated and in the Ring .

Resonance which is in the Ring of Continuous and Conjugated and in the Ring . #aromaticity #organic #Chemistry

Stabilities of Carbonation , Carbanion and Free Radical and also Acidic Strength and Basic Strength by Application of Resonance .

Bond Order with the Help of All Effect and Berdt's Rule .

Hyperconjugations or No Bond Resonance and its both Type +H and -H Effect

Calculation of Heat of Hydrogenation and Heat of Combustions with the Help of Hyperconjugation and Resonance.

Analysis of All the Groups in Mesomeric Effect Inductive Effect and Hyperconjugation .

Final order of Stability of Carbocation in all the Effect which Defines the Order of Stability of Carbocation .

Final order of Stability of Carbanion in all the Effect which Defines the Order of Stability of Carbanion .

Final order of Stability of Free Radicals in all the Effect which Defines the Order of Stability of Free Radicals .

Qualitative and Quantitative Aspect of Calculation and Comparison of Resonance Energy Sequence Wise .

This video tells about Functional Group Isomerism , Metamers and Ring chain isomers with various illustrations and also miscellaneous illustrations .

Video explains about geometrical isomers , conditions of geometrical isomers , Examples pf geometrical isomers and different types of geometrical isomers .

This video talks about the Nomenclature of Alkanes Also Includes the basic Rules in Naming like Selection of Principal Carbon chain and also the naming and Selection of the Substituents .

This video talks about the naming of Cyclic alkanes which are named as Cycloalkane .

This basic rules for Nomenclature of Alkene and Alkyne and also selection of priority in the naming of them .

This video tells about the Priority Table of Functional Group according to the seniority while selecting the name and the prefix which is used when those functional groups are treated as substituents .

This video tells about the Naming of Acid Anhydride with its derivative with the help of few examples .

This video tells about the Naming of Acid Halide and its common name with the help of some examples .

This video tells about the Naming of Alcohols and its common names with the help of some examples .

This video tells about the Naming of Aldehyde and its common name with the help of some examples

This video tells about the Naming of Amide and its common name with the help of some examples .

This video tells about the Naming of Amine and its common name with the help of some examples .

This video tells about the Naming of Carboxylic Acid and its common name with the help of some examples .

This video tells about the Naming of Cyanide and its common name with the help of some examples .

This video tells about the Naming of Ester and Cyclic Ester and its common name with the help of some examples .

This video tells about the Naming of Isocyanide and its common name with the help of some examples .

This video tells about the Naming of Ketones and its common name with the help of some examples .

This video tells about the Naming of Ether and its common name with the help of some examples .

This video tells about the Naming of Sulphonic Acid and its common name with the help of some examples .

This video tells about the Naming of Thio Alcohol and its common name with the help of some examples .

This Video Tells about the types of Bond Fission , Their Categorizes and the Types of Electronic Displacement Effect .

This Video Tells about Types of Inductive Effect and their Strength Order .

This Video Tells about the calculation of Bond Order and Bond Length with the help of Resonance .

This Video Talks about types of Conjugations Extended , Cross and Normal Conjugation with Drawing Of resonating Structures .

This Video Talks about drawing of resonating structures , Back Bonding and stability of Resonating Structures .

This video talks about the types of Mesomeric Effect present .

This video tells about the examples of various group subdivided according to Mesomeric Effect.

This video talks about the benzene ring charge density effected by Halogens and also order of -M Effect .

This video talks about Hyperconjugation and the +H Effect of it .

This video discuss the isomerism and its all types of category .

This video discuss in detail about the Chain Isomers including some examples .

This video discuss in detail about the Position Isomers including some examples

This video discusses about the Ring Chain Isomers including some examples .

This video discuss in detail about the Functional Isomers including the calculation of Degree of Unsaturation and Double Bond Equivalent .

This video discuss in detail about the Metamers and its all possible cases in Different types of functional Isomers including some examples .

This video tells about Polarimeter tube experiment Setup and its relation with different type of optically activity of the compound .

This video tells about Plane of symmetry and Center of symmetry in a Organic Molecule which is related with its Optical Activity .

This video talks about the Measurement of Axis of symmetry and Alternative Axis of symmetry .

This video talks about the Meso compound and Racemic mixture with few examples .

This video talks about Electrophilic Aromatic Substitution reaction with its intermediate and characteristic of this reaction .

This video describes the Friedel Craft Alkylation and Friedel Craft Acylation in the category of Electrophilic Aromatic Substitution .

This video talks about the Halogenation of Benzene in the Electrophilic Aromatic Substitution Reaction .

This video talks about the Nitration of Benzene in Electrophilic Aromatic Substitution Reaction with characteristic of the reaction with detailed mechanism .

This video Talks about Sulphonation and Desulphonation of Benzene also talks about the different method to from Picric Acid .

This video tells about types of Nucleophilic Substitution Reaction and details about BiMolecular Substitution reaction SN2 with detailed mechanism .

This video tells about types of Nucleophilic Substitution Reaction and details about BiMolecular Substitution reaction SN2 with detailed examples .

This video talks about Finkelstein Reaction and Williamson Ether Synthesis with some examples .

This video talks about the difference in between Nucleophilicity and Basicity , and discusses about the Nucleophilicity in different solvent conditions .

This video details about Unimolecular Substitution Nucleophilic SN1 reaction .

This video differentiate how SN2 is different from SN1 with various reactant examples .

This video tells about Nucleophilic Aromatic Substitution which is also known as SN Ar .

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Covers nomenclature, electronic effects, and isomerism, which are fundamental concepts tested in high school and undergraduate chemistry exams

Includes a crash course option, which may be suitable for learners who need a quick review of essential organic chemistry topics

Explores reaction mechanisms in detail, which helps students understand and solve advanced-level problems

Examines reactions of various functional groups, including alcohols, alkyl halides, and carbonyl compounds, which is essential knowledge for organic chemistry

Features advanced-level problems geared toward high school chemistry and first-year BS chemistry students, which may be too challenging for beginners

Includes topics like biomolecules and polymers, which may be outside the scope of a typical introductory organic chemistry course

Reviews summary

Comprehensive organic chemistry for exam prep

According to learners, this course offers an extensive and detailed coverage of organic chemistry, making it particularly effective for preparing for competitive exams like JEE, NEET, and SAT. Students appreciate the in-depth explanations of reaction mechanisms, which many find crucial for understanding complex topics and solving advanced problems. While many find the content highly valuable and comprehensive, some reviewers note that the pace can be fast, which might require learners to dedicate extra time or have some prior background. The course is seen as a solid foundation for both basic and more advanced concepts in the field.

Some find the lectures move quickly.

"Sometimes the pace of the lectures felt a bit fast, requiring me to pause and rewatch sections."

"While detailed, the speed at which new concepts were introduced was challenging at times."

"For a complete beginner, the course might feel rushed in some parts."

"If you have some prior knowledge, the pace is fine, but starting from scratch could be intense."

Instructor is knowledgeable in the subject.

"The instructor clearly knows organic chemistry inside and out."

"Very knowledgeable instructor with a deep understanding of the subject."

"It's evident the person teaching has a strong grasp of the material."

"The expertise of the instructor shines through in the explanations."

Detailed focus on reaction mechanisms.

"The way reaction mechanisms are broken down step-by-step is incredibly helpful for understanding 'why'."

"Getting into the detailed mechanisms made complex reactions much clearer than just memorizing."

"Understanding the 'how' behind the reactions through the mechanism videos was a major strength."

"I especially liked the detailed explanations of SN1, SN2, and elimination reactions and their mechanisms."

Highly relevant for competitive university exams.

"This course is a lifesaver for JEE advanced preparation. The problems solved are top-notch."

"Perfectly aligned with NEET syllabus. Helped me revise and understand concepts better for the exam."

"As a student preparing for SAT subject tests, I found the topics covered to be exactly what I needed."

"Recommended for anyone targeting entrance exams for medical or engineering streams."

Covers a broad range from basic to advanced.

"This course covers everything from basic nomenclature to advanced reaction mechanisms in great detail."

"It's a very comprehensive organic chemistry course, suitable for beginners and those reviewing for exams."

"I felt that the course modules were thorough and covered all the essential topics mentioned in the syllabus."

"The content goes from basic definitions right up to complex reactions, which I appreciated."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Organic Chemistry from Basic to Expert Like Pro for any exam with these activities:

Review Basic Chemistry Concepts

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Strengthen your understanding of fundamental chemistry concepts. This will provide a solid foundation for grasping organic chemistry principles.

Browse courses on General Chemistry

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Review atomic structure and bonding.
Study chemical reactions and stoichiometry.
Practice balancing chemical equations.

Consult "Organic Chemistry as a Second Language" by David R. Klein

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Use a supplementary text to clarify difficult concepts. This book offers a different perspective and can help bridge gaps in understanding.

View Organic Chemistry as a Second Language on Amazon

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Read the relevant sections alongside the course material.
Work through the practice problems and examples.
Use the book to clarify any confusing topics.

Read "Organic Chemistry" by Paula Yurkanis Bruice

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Supplement the course material with a widely respected textbook. This will provide additional explanations, examples, and practice problems.

View Student Study Guide and Solutions Manual for... on Amazon

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Read assigned chapters before each corresponding lecture.
Work through the example problems in the book.
Attempt the end-of-chapter problems for practice.

Four other activities

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Nomenclature Practice

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Reinforce your understanding of IUPAC nomenclature. This will improve your ability to name and identify organic compounds.

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Find online nomenclature quizzes and exercises.
Practice naming different types of organic compounds.
Review the IUPAC naming rules regularly.

Mechanism Flashcards

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Solidify your understanding of reaction mechanisms. This will help you predict products and understand reaction pathways.

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Choose key reaction mechanisms from the course.
Draw the mechanism step-by-step on flashcards.
Include explanations of each step on the back.
Review the flashcards regularly.

Reaction Summary Sheet

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Consolidate your knowledge of organic reactions. This will provide a valuable reference for future study and problem-solving.

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Categorize reactions by functional group or mechanism.
Summarize the key features of each reaction.
Include examples and important notes.
Organize the information in a clear and concise format.

Tutor a Classmate

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Reinforce your own understanding by teaching the material to someone else. Explaining concepts to others helps solidify your knowledge.

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Offer to help a classmate who is struggling.
Review the material together and answer their questions.
Explain concepts in your own words.

Career center

Learners who complete Organic Chemistry from Basic to Expert Like Pro for any exam will develop knowledge and skills that may be useful to these careers:

Medicinal Chemist

Medicinal chemists design and synthesize new pharmaceutical drugs. This course provides a foundation in organic chemistry, crucial for understanding drug interactions and designing novel compounds. Medicinal chemists must understand reaction mechanisms, stereochemistry, and structure-activity relationships. This course helps build a strong understanding of nomenclature, electronic effects, as well as substitution and elimination reactions. Mastering advanced topics like reaction intermediates and isomerism, as explored in this course, allows the medicinal chemist to develop effective therapeutic agents. The work of a medicinal chemist requires a master's or doctoral degree.

See salaries and explore the career path for Medicinal Chemist

Process Chemist

A process chemist optimizes chemical processes for manufacturing. This course helps those aspiring to become process chemists by reinforcing core concepts like reaction mechanisms, nomenclature, and isomerism, all essential for understanding and improving chemical reactions at scale. Process chemists need a firm grasp of organic chemistry to troubleshoot issues, improve yields, and ensure product quality. Deepening your knowledge of electronic effects, substitution reactions, and reaction intermediates will make you a more effective process chemist. A key aspect of this role is being able to work with various organic compounds, thus understanding nomenclature and functional groups, as covered in this course, is essential.

See salaries and explore the career path for Process Chemist

Biochemist

Biochemists study the chemical processes within living organisms. This course assists those aspiring to become biochemists, since it reinforces core concepts like reaction mechanisms, nomenclature, and isomerism, all essential for understanding biochemical reactions. Biochemists need a firm grasp of organic chemistry to understand metabolic pathways, enzyme mechanisms, and the structure of biomolecules. Deepening your knowledge of electronic effects, substitution reactions, and reaction intermediates may make you a more effective biochemist. The work of a biochemist requires a master's or doctoral degree.

See salaries and explore the career path for Biochemist

Research Scientist

Research scientists design and conduct experiments to advance scientific knowledge. The course can be useful since it focuses on building a strong foundation in organic chemistry, essential for many research areas. Research scientists may work in academia, industry, or government labs. Understanding reaction mechanisms, stereochemistry, and structure-activity relationships is crucial for designing and interpreting experiments. This exploration of nomenclature, electronic effects, substitution reactions, and advanced topics helps one to grow as a research scientist. A research scientist typically requires a doctoral degree.

See salaries and explore the career path for Research Scientist

Chemical Engineer

Chemical engineers apply chemistry principles to solve problems involving the production or use of chemicals. This course assists aspiring chemical engineers by strengthening their grasp of organic chemistry. Chemical engineers benefit from knowledge in areas such as reaction mechanisms, electronic effects, and the properties of organic compounds. Understanding reaction kinetics, taught in this course through the study of reaction mechanisms, is beneficial for reactor design and optimization. This course's exploration of nomenclature and isomerism could be useful for chemical engineers working with complex molecules or polymers.

See salaries and explore the career path for Chemical Engineer

Toxicologist

Toxicologists study the effects of chemicals on living organisms. This course helps the aspiring toxicologist by enhancing knowledge of organic chemistry, crucial for understanding how chemicals interact with biological systems. Toxicologists assess the safety of chemicals used in products and the environment. The course helps build a strong understanding of nomenclature, electronic effects, as well as substitution and elimination reactions. Mastering advanced topics like reaction intermediates and isomerism, as explored in this course, allows the toxicologist to assess risks effectively.

See salaries and explore the career path for Toxicologist

Environmental Chemist

Environmental chemists study the chemical processes in the environment and find solutions to environmental problems. The course assists in developing a better understanding of organic chemistry, which is crucial for analyzing pollutants and their impact on the environment. Environmental chemists work to identify and remediate contaminants in water, soil, and air. Focusing on organic compounds, electronic effects, and reaction mechanisms can help you comprehend the fate and transport of pollutants. Environmental chemists often work on projects related to water treatment, waste management, and pollution prevention.

See salaries and explore the career path for Environmental Chemist

Materials Scientist

Materials scientists research and develop new materials. This course may be useful for those looking to enhance their foundation in organic chemistry, which is essential for working with organic materials. Materials scientists apply principles from chemistry and engineering to create materials with specific properties. Understanding the relationship between molecular structure and material properties is critical. The course's focus on nomenclature, electronic effects, and reaction mechanisms may broaden a materials scientist's understanding of material behavior. This knowledge is helpful in both designing and modifying organic materials.

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Formulation Scientist

Formulation scientists develop new and improved formulations for products. This course may be useful for those looking to build a stronger understanding of organic chemistry, which can allow for a deeper knowledge of chemical interactions. Formulation scientists often work in the pharmaceutical, cosmetic, or food industries. The course's exploration of nomenclature, electronic effects, and reaction mechanisms could broaden a formulation scientist's understanding of ingredient compatibility. This understanding is key to creating stable and effective product formulations.

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Science Teacher

Science teachers educate students in scientific subjects. This course helps build a foundation in organic chemistry, which is essential for teaching chemistry at the high school or college level. Science teachers develop lesson plans, deliver instruction, and assess student learning. Understanding reaction mechanisms, stereochemistry, and structure-activity relationships can help you to explain concepts to students. This course’s focus on nomenclature, electronic effects, substitution reactions, and advanced topics may lead to success as a science teacher.

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Analytical Chemist

Analytical chemists analyze the chemical composition of substances. This course may be helpful for analytical chemists, who need a firm grounding in chemistry. Analytical chemists use a variety of techniques, such as chromatography, spectroscopy, and mass spectrometry, to identify and quantify substances. Gaining familiarity with organic compounds and their properties, by studying nomenclature, electronic effects, and isomerism, will allow for a greater understanding of analysis results. Analytical chemists are employed in a wide range of industries.

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Quality Control Chemist

Quality control chemists analyze materials to ensure they meet quality standards. A solid knowledge of organic chemistry, as improved by this course, can be very helpful in this role. Quality control chemists often use techniques such as chromatography and spectroscopy to identify and quantify compounds. You can deepen your understanding of organic compounds and their properties by studying nomenclature, electronic effects, and isomerism. Quality control chemists may examine raw materials, in-process samples, and finished products to verify their purity and composition.

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Regulatory Affairs Specialist

Regulatory affairs specialists ensure that products meet regulatory requirements. This course may be helpful, as regulatory affairs specialists working with chemical or pharmaceutical products need to understand organic chemistry. Regulatory affairs specialists compile and submit documentation to regulatory agencies, such as the Food and Drug Administration. The course may allow them to speak with the product team on a deeper level. Regulatory affairs specialists are commonly involved in product development and ensure compliance.

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Science Writer

Science writers communicate scientific information to the public. This course assists science writers in building a foundation in organic chemistry, which is useful when writing about chemistry-related topics. Science writers may work for newspapers, magazines, websites, or other media outlets. A solid background in chemistry helps science writers accurately and effectively convey complex scientific concepts. The exploration of nomenclature, electronic effects, and reaction mechanisms in this course can provide a base for translating complex information into engaging content.

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Patent Attorney

Patent attorneys specialize in intellectual property law, particularly patents. This course may be helpful for patent attorneys who work with inventions in the field of chemistry. Patent attorneys advise clients on patentability, draft patent applications, and litigate patent disputes. Understanding nomenclature, electronic effects, and reaction mechanisms may allow the attorney to describe and distinguish inventions. Patent attorneys typically have a science background and a law degree.

See salaries and explore the career path for Patent Attorney

Organic Chemistry from Basic to Expert Like Pro for any exam

What's inside

Learning objectives

Syllabus

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Reviews summary

Comprehensive organic chemistry for exam prep

Activities

Career center

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