Chapter 7 Covalent Bonding Outline Covalent Bonding Introduction
... • Same rules we have seen before • In an atom, an orbital holds two electrons • In a molecule, an orbital also holds two electrons • What electrons go into hybrid orbitals? • Lone pairs • One pair per bond • Even for a double bond, only one pair goes into the hybrid orbital ...
... • Same rules we have seen before • In an atom, an orbital holds two electrons • In a molecule, an orbital also holds two electrons • What electrons go into hybrid orbitals? • Lone pairs • One pair per bond • Even for a double bond, only one pair goes into the hybrid orbital ...
Summary of Organic chemistry
... Good solvent for other organic cpnds Ethoxyethane (diethyl ether) used as anaesthetic -ethanoic (acetic) acid produced by fermentation of fruit sugar ethanol ethanoic acid (enzyme req'd) -synthesized from ethyne (acetylene) - most esters have pleasant, fruity flavours -natural and synthetic flav ...
... Good solvent for other organic cpnds Ethoxyethane (diethyl ether) used as anaesthetic -ethanoic (acetic) acid produced by fermentation of fruit sugar ethanol ethanoic acid (enzyme req'd) -synthesized from ethyne (acetylene) - most esters have pleasant, fruity flavours -natural and synthetic flav ...
Principles of Organic and Biochemistry
... Amides contain carbon double bonded to oxygen plus an NH group ...
... Amides contain carbon double bonded to oxygen plus an NH group ...
BP208P. PHARMACEUTICAL ORGANIC CHEMISTRY
... 1. Preliminary test: Color, odour, aliphatic/aromatic compounds, saturation and unsaturation, etc. 2. Detection of elements like Nitrogen, Sulphur and Halogen by Lassaigne’s test 3. Solubility test 4. Functional group test like Phenols, Amides/ Urea, Carbohydrates, Amines, Carboxylic acids, Aldehyde ...
... 1. Preliminary test: Color, odour, aliphatic/aromatic compounds, saturation and unsaturation, etc. 2. Detection of elements like Nitrogen, Sulphur and Halogen by Lassaigne’s test 3. Solubility test 4. Functional group test like Phenols, Amides/ Urea, Carbohydrates, Amines, Carboxylic acids, Aldehyde ...
Chapter 21 Worksheet
... 1. Find the longest continuous carbon chain (parent chain). a. If there is a functional group (double or triple bond, alcohol etc) it must be on or part of the parent chain. b. If there is a ring in the compound either the ring itself or the non-ringed chain will be the parent chain but never both c ...
... 1. Find the longest continuous carbon chain (parent chain). a. If there is a functional group (double or triple bond, alcohol etc) it must be on or part of the parent chain. b. If there is a ring in the compound either the ring itself or the non-ringed chain will be the parent chain but never both c ...
IB. bio Chapter 4 or 3 carbon and molecular diversity notes
... Stanley Miller (1953) demonstrated the possibility that organic compounds could have been produced under the chemical conditions of primordial Earth. B. Carbon atoms are the most versatile building blocks of molecules The carbon atom: Usually has an atomic number of 6; therefore, it has 4 valenc ...
... Stanley Miller (1953) demonstrated the possibility that organic compounds could have been produced under the chemical conditions of primordial Earth. B. Carbon atoms are the most versatile building blocks of molecules The carbon atom: Usually has an atomic number of 6; therefore, it has 4 valenc ...
Chemistry Chapter 8 (HW Jan 28 Due Feb 5 Test Feb 6)
... a. both bonding electrons come from the oxygen atom b. it forms an especially strong bond c. the electrons are equally shared d. the oxygen no longer has eight valence electrons ____ 25. Which of the following bonds is the least reactive? a. C—C c. O—H b. H—H d. H—Cl ____ 26. How many valid electron ...
... a. both bonding electrons come from the oxygen atom b. it forms an especially strong bond c. the electrons are equally shared d. the oxygen no longer has eight valence electrons ____ 25. Which of the following bonds is the least reactive? a. C—C c. O—H b. H—H d. H—Cl ____ 26. How many valid electron ...
Alkenes Group
... • They are made from alkanes by cracking • Because they have a double bond, they are called unsaturated. (Alkanes have no double bonds, so are saturated) • They are much more reactive than alkanes C2H4 + H2 ---C3H6 The hydrogen just add on, so this is called an addition reaction • Alkenes also do a ...
... • They are made from alkanes by cracking • Because they have a double bond, they are called unsaturated. (Alkanes have no double bonds, so are saturated) • They are much more reactive than alkanes C2H4 + H2 ---C3H6 The hydrogen just add on, so this is called an addition reaction • Alkenes also do a ...
Eötvös Loránd Science University
... Beckmann-rearrangement. Preparation and synthetic use of diazomethane. Reduction of aromatic nitro compounds. Polycyclic aromatic compounds – Structure of naphthalene, anthracene and phenanthrene. Electrophilic aromatic substitution on polycyclic aromatic compounds, reactivity and orientation. 14. l ...
... Beckmann-rearrangement. Preparation and synthetic use of diazomethane. Reduction of aromatic nitro compounds. Polycyclic aromatic compounds – Structure of naphthalene, anthracene and phenanthrene. Electrophilic aromatic substitution on polycyclic aromatic compounds, reactivity and orientation. 14. l ...
Slides
... The second step in which the carbocation forms is rate determining The transition state for this reaction has carbocation character Tertiary alcohols react the fastest because they have the most stable tertiary carbocation-like transition state in the second step ...
... The second step in which the carbocation forms is rate determining The transition state for this reaction has carbocation character Tertiary alcohols react the fastest because they have the most stable tertiary carbocation-like transition state in the second step ...
Chemical Bonding Notes for 2016
... • Electrons are moved from one atom to another. • The charged particle that results is called an ...
... • Electrons are moved from one atom to another. • The charged particle that results is called an ...
Ch. 4 notes
... However, when two carbon atoms are joined by a double bond, all bonds around those carbons are in the same plane and have a flat, three-dimensional structure. ...
... However, when two carbon atoms are joined by a double bond, all bonds around those carbons are in the same plane and have a flat, three-dimensional structure. ...
Study guide/lecture topics
... This is a list of topics we will be covering to help you in preparation for exams. Topics from Clayden are indicated clearly by chapter and page numbers where necessary. Topics NOT from Clayden are listed in italics. PLTL topics are in CAPS. This document will be updated throughout the term. The goa ...
... This is a list of topics we will be covering to help you in preparation for exams. Topics from Clayden are indicated clearly by chapter and page numbers where necessary. Topics NOT from Clayden are listed in italics. PLTL topics are in CAPS. This document will be updated throughout the term. The goa ...
Matter and Its Changes
... Two liquids that don’t mix and stay mixed. They may make a suspension, but they don’t make a ...
... Two liquids that don’t mix and stay mixed. They may make a suspension, but they don’t make a ...
constitutional isomers
... multiple bonds). The carbon atoms that form the benzene ring are described as aryl to indicate that they are part of an aromatic ring. Other carbon atoms from double bonds are classified as alkenyl while those from triple bonds are classified as alkynyl. We will use this terminology throughout the c ...
... multiple bonds). The carbon atoms that form the benzene ring are described as aryl to indicate that they are part of an aromatic ring. Other carbon atoms from double bonds are classified as alkenyl while those from triple bonds are classified as alkynyl. We will use this terminology throughout the c ...
Ionic Bond Test - Dynamic Science
... diary entry was incomplete and is shown here.”I have managed to isolate the compound hept……..” Which statement is true? a) The compound has 6 carbon atoms and one carbon-to-carbon double bond. b) The compound contains 7 carbon-to-carbon double bonds. c) The compound contains 7 carbon atoms and is li ...
... diary entry was incomplete and is shown here.”I have managed to isolate the compound hept……..” Which statement is true? a) The compound has 6 carbon atoms and one carbon-to-carbon double bond. b) The compound contains 7 carbon-to-carbon double bonds. c) The compound contains 7 carbon atoms and is li ...
Extra Organic Notes and Activities
... chemistry - chemistry from living sources). However, a great number of these can now be synthesized in the laboratory. The important thing to remember about organic chemistry is that it is based on the chemistry of carbon. If we take a look at the electron arrangement of carbon, we find that there a ...
... chemistry - chemistry from living sources). However, a great number of these can now be synthesized in the laboratory. The important thing to remember about organic chemistry is that it is based on the chemistry of carbon. If we take a look at the electron arrangement of carbon, we find that there a ...
Chapter 4 Carbon and the Molecular Diversity of Life Lecture Outline
... However, when two carbon atoms are joined by a double bond, all bonds around those carbons are in the same plane and have a flat, three-dimensional structure. ...
... However, when two carbon atoms are joined by a double bond, all bonds around those carbons are in the same plane and have a flat, three-dimensional structure. ...
Aromaticity
In organic chemistry, the term aromaticity is formally used to describe an unusually stable nature of some flat rings of atoms. These structures contain a number of double bonds that interact with each other according to certain rules. As a result of their being so stable, such rings tend to form easily, and once formed, tend to be difficult to break in chemical reactions. Since one of the most commonly encountered aromatic system of compounds in organic chemistry is based on derivatives of the prototypical aromatic compound benzene (common in petroleum), the word “aromatic” is occasionally used to refer informally to benzene derivatives, and this is how it was first defined. Nevertheless, many non-benzene aromatic compounds exist. In living organisms, for example, the most common aromatic rings are the double-ringed bases in RNA and DNA.The earliest use of the term “aromatic” was in an article by August Wilhelm Hofmann in 1855. Hofmann used the term for a class of benzene compounds, many of which do have odors (unlike pure saturated hydrocarbons). Today, there is no general relationship between aromaticity as a chemical property and the olfactory properties of such compounds, although in 1855, before the structure of benzene or organic compounds was understood, chemists like Hofmann were beginning to understand that odiferous molecules from plants, such as terpenes, had chemical properties we recognize today are similar to unsaturated petroleum hydrocarbons like benzene.In terms of the electronic nature of the molecule, aromaticity describes the way a conjugated ring of unsaturated bonds, lone pairs of electrons, or empty molecular orbitals exhibit a stabilization stronger than would be expected by the stabilization of conjugation alone. Aromaticity can be considered a manifestation of cyclic delocalization and of resonance. This is usually considered to be because electrons are free to cycle around circular arrangements of atoms that are alternately single- and double-bonded to one another. These bonds may be seen as a hybrid of a single bond and a double bond, each bond in the ring identical to every other. This commonly seen model of aromatic rings, namely the idea that benzene was formed from a six-membered carbon ring with alternating single and double bonds (cyclohexatriene), was developed by August Kekulé (see History section below). The model for benzene consists of two resonance forms, which corresponds to the double and single bonds superimposing to produce six one-and-a-half bonds. Benzene is a more stable molecule than would be expected without accounting for charge delocalization.