Chapter 14 Organic chemistry

  • Alkanes are hydrocarbons that contain only single covalent bonds within their molecules.

  • Alkane Nomenclature: The naming of alkanes is based on choosing the longest carbon chain in the structural formula, then naming

  • Compounds that have the same molecular formulas but different structural formulas are called isomers. With hydrocarbons, this applies to a different arrangement of the carbon atoms. Isomers such as these are called structural isomers.

Common functional groups

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  • Carbon has the ability to bond to itself in long and complex chains. These large molecules, called macromolecules, may have molecular masses in the millions.

  • They are large, complex molecules, but most are composed of repeating units called monomers.

Five factors affect the rates of a chemical reaction:

  1. Nature of reactants

  2. The temperature

  3. The concentration of reactants

  4. The physical state of reactants

  5. Catalysts

THE RATE EQUATION

  • k is the rate constant—a constant for each chemical reaction at a given temperature. The exponents m and n, called the orders of reaction

  • The rate of reaction may depend upon reactant concentration, product concentration, and

    temperature.

  • The rate of reaction may be measured in a variety of ways, including taking the slope

    of the concentration versus time plot for the reaction.

  • INTEGRATED RATE LAWS

  • only cases in which instantaneous data are used in the rate expression have been shown. These expressions allow us to answer questions concerning the speed of the reaction at a particular moment, but not questions about how long it might take to use up a certain reactant, etc.

  • If changes in the concentration of reactants or products over time are taken into account, as in the integrated rate laws, these questions can be answered.

  • The Arrhenius equation is most commonly used to calculate the activation energy of a reaction.

The Arrhenius equation has the form: k = Ae-Ea /RT where k is the rate constant, A is a term called the frequency factor that accounts for molecular orientation, e is the natural logarithm base, R is the universal gas constant 8.314 J mol K-1, T is the Kelvin temperature, and Ea is the activation energy,

  • A + B → C

  • C + B → D

  • D → E + F

If you add together the three equations above, you will get the overall equation A + 2B →E + F. C and D are called reaction intermediates, chemical species that are produced and consumed during the reaction, but that do not appear in the overall reaction.

ACTIVATION ENERGY

  • T is the Kelvin temperature, and Ea is the activation energy, the minimum amount of energy that is needed to initiate or start a chemical reaction.

RATION MECHANISM

  • Many reactions proceed from reactants to products through a sequence of reactions. This sequence of reactions is called the reaction mechanism.

HOMOGENEOUS CATALYST

  • Homogeneous catalysts are catalysts that are in the same phase or state of matter as the reactants. They provide an alternative reaction pathway (a mechanism) with lower activation energy.

    • The decomposition of hydrogen peroxide is a slow, one-step reaction, especially if the solution is kept cool and in a dark bottle:

  • 2 H2O2 → 2 H2O + O2

    However, if ferric ions are added, the reaction speeds up tremendously. The proposed reaction sequence for this new reaction is:

    2 Fe3^+ + H2O2 → 2 Fe2^+ + O2 + 2 H^+

    2 Fe2^+ + H2O2 + 2 H^+ → 2 Fe3^+ + 2 H2

HETEROGENEOUS CATALYST

  • A heterogeneous catalyst is in a different phase or state of matter from the reactants.

  • Most commonly, the catalyst is a solid and the reactants are liquids or gases.

  • These catalysts lower the activation energy for the reaction by providing a surface for the reaction, and also by providing a better orientation of one reactant so its reactive site is more easily hit by the other reactant

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