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Solutions for Chapter Chapter 15: Lipids

Chemistry: An Introduction to General, Organic, and Biological Chemistry | 12th Edition | ISBN: 9780321908445 | Authors: Karen C. Timberlake

Full solutions for Chemistry: An Introduction to General, Organic, and Biological Chemistry | 12th Edition

ISBN: 9780321908445

Chemistry: An Introduction to General, Organic, and Biological Chemistry | 12th Edition | ISBN: 9780321908445 | Authors: Karen C. Timberlake

Solutions for Chapter Chapter 15: Lipids

Solutions for Chapter Chapter 15
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Textbook: Chemistry: An Introduction to General, Organic, and Biological Chemistry
Edition: 12
Author: Karen C. Timberlake
ISBN: 9780321908445

Chemistry: An Introduction to General, Organic, and Biological Chemistry was written by and is associated to the ISBN: 9780321908445. This expansive textbook survival guide covers the following chapters and their solutions. Since 90 problems in chapter Chapter 15: Lipids have been answered, more than 30872 students have viewed full step-by-step solutions from this chapter. This textbook survival guide was created for the textbook: Chemistry: An Introduction to General, Organic, and Biological Chemistry, edition: 12. Chapter Chapter 15: Lipids includes 90 full step-by-step solutions.

Key Chemistry Terms and definitions covered in this textbook
  • 1,2-adduct

    The product obtainedfrom 1,2-addition across a conjugated p system.

  • Acetal

    A molecule containing two !OR or !OAr groups bonded to the same carbon

  • Arrhenius equation

    An equation that relates the rate constant for a reaction to the frequency factor, A, the activation energy, Ea, and the temperature, T: k = Ae-Ea>RT. In its logarithmic form it is written ln k = -Ea>RT + ln A. (Section 14.5)

  • base-dissociation constant (Kb)

    An equilibrium constant that expresses the extent to which a base reacts with solvent water, accepting a proton and forming OH-1aq2. (Section 16.7)

  • buffer capacity

    The amount of acid or base a buffer can neutralize before the pH begins to change appreciably. (Section 17.2)

  • carboxylic acids.

    Acids that contain the carboxyl group —COOH. (24.4)

  • combustion reaction.

    A reaction in which a substance reacts with oxygen, usually with the release of heat and light, to produce a flame. (4.4)

  • entropy

    A thermodynamic function associated with the number of different equivalent energy states or spatial arrangements in which a system may be found. It is a thermodynamic state function, which means that once we specify the conditions for a system—that is, the temperature, pressure, and so on—the entropy is defined. (Section 19.2)

  • Fingerprint region

    Vibrations in the region 1500 to 400 cm21 of an IR spectrum are complex and diffi cult to analyze but are characteristic for different molecules.

  • flagpole interactions

    For cyclohexane, the steric interactions that occur between the flagpole hydrogen atoms in a boat conformation.

  • Hofmann rule

    Any b-elimination that occurs preferentially to give the less substituted alkene as the major product.

  • hydride shift

    A type of carbocation rearrangement that involves the migration of a hydride ion (H-).

  • localized lone pair

    A lone pair thatis not participating in resonance.

  • monosaccharide

    A simple sugar, most commonly containing six carbon atoms. The joining together of monosaccharide units by condensation reactions results in formation of polysaccharides. (Section 24.8)

  • node

    Points in an atom at which the electron density is zero. For example, the node in a 2s orbital is a spherical surface. (Section 6.6)

  • Part per million (ppm)

    Units used on NMR spectra to record chemical shift relative to the TMS standard.

  • polarizability

    The ability of an atom or molecule to distribute its electron density unevenly in response to external influences.

  • reaction mechanism

    A series of intermediates and curved arrows that show howthe reaction occurs in terms of the motion of electrons.

  • spin-pairing energy

    The energy required to pair an electron with another electron occupying an orbital. (Section 23.6)

  • thermosetting resins

    Highly crosslinked polymers that are generally very hard and insoluble.

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