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Textbooks / Chemistry / Molecular Biology: Principles and Practice 2

Molecular Biology: Principles and Practice 2nd Edition Solutions

Do I need to buy Molecular Biology: Principles and Practice | 2nd Edition to pass the class?

ISBN: 9781464126147

Molecular Biology: Principles and Practice | 2nd Edition - Solutions by Chapter

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Textbook: Molecular Biology: Principles and Practice
Edition: 2
Author: Michael M. Cox; Jennifer Doudna; Michael O'Donnell
ISBN: 9781464126147

This textbook survival guide was created for the textbook: Molecular Biology: Principles and Practice, edition: 2. Since problems from 0 chapters in Molecular Biology: Principles and Practice have been answered, more than 200 students have viewed full step-by-step answer. The full step-by-step solution to problem in Molecular Biology: Principles and Practice were answered by , our top Chemistry solution expert on 10/03/18, 06:29PM. Molecular Biology: Principles and Practice was written by and is associated to the ISBN: 9781464126147. This expansive textbook survival guide covers the following chapters: 0.

Key Chemistry Terms and definitions covered in this textbook
  • 1,4-adduct

    The product obtained from 1,4-addition across a conjugated p system.

  • activated complex.

    The species temporarily formed by the reactant molecules as a result of the collision before they form the product. (13.4)

  • alkynes

    Hydrocarbons containing one or more carbon–carbon triple bonds. (Section 24.2)

  • amidomalonate synthesis

    A synthetic method that employs diethyl acetamidomalonate as the starting material and enables the preparation of racemic a-amino acids.

  • beta emission

    A nuclear decay process where a beta particle is emitted from the nucleus; also called beta decay. (Section 21.1)

  • Brønsted-Lowry acid

    A compound that can serve as a proton donor.

  • carbohydrates

    A class of substances formed from polyhydroxy aldehydes or ketones. (Section 24.8)

  • cellular respiration

    A process by which molecular oxygen is used to convert food into CO2, water, and energy.

  • cellulose

    A polysaccharide of glucose; it is the major structural element in plant matter. (Section 24.8)

  • chemistry.

    The study of matter and the changes it undergoes. (1.1)

  • covalent-network solids

    Solids in which the units that make up the three-dimensional network are joined by covalent bonds. (Section 12.1)

  • Dalton’s law of partial pressures.

    The total pressure of a mixture of gases is just the sum of the pressures that each gas would exert if it were present alone. (5.6)

  • double helix

    The structure for DNA that involves the winding of two DNA polynucleotide chains together in a helical arrangement. The two strands of the double helix are complementary in that the organic bases on the two strands are paired for optimal hydrogen bond interaction. (Section 24.10)

  • face-centered lattice

    A crystal lattice in which the lattice points are located at the faces and corners of each unit cell. (Section 12.2)

  • intermetallic compound

    A homogeneous alloy with definite properties and a fixed composition. Intermetallic compounds are stoichiometric compounds that form between metallic elements. (Section 12.3)

  • N-nitrosamine

    A compound with the structure R2N!NRO.

  • neutron

    An electrically neutral particle found in the nucleus of an atom; it has approximately the same mass as a proton. (Section 2.3)

  • polyvinyl chloride, (PVC)

    A polymer formed from the polymerization of vinyl chloride (H2CRCHCl).

  • saturated solution

    A solution in which undissolved solute and dissolved solute are in equilibrium. (Section 13.2)

  • sulfonate ions

    Common leaving groups. Examples include tosylate, mesylate, and triflate ions.