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Isomer

Chapter 4 Test Bank AP Bio

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Chemistry
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Amino acid
Carbon

Campbell's Biology, 9e (Reece et al.) Chapter 4 Carbon and the Molecular Diversity of Life This chapter focuses on the chemistry of carbon and organic compounds. Students should be able to identify the nature of the bonds between carbon and other elements (nonpolar versus polar), the different types of weak bonds and interactions, the various types of isomers, the basic functional groups of organic molecules, and their relative solubility in water. The abiotic formation of organic molecules from inorganic molecules is important in the origin of life. Multiple-Choice Questions 1) The element present in all organic molecules is A) hydrogen. B) oxygen. C) carbon. D) nitrogen. E) phosphorus. Answer: C Topic: Concept 4.1 Skill: Knowledge/Comprehension

Ap bio Carbon Compunds ppt

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Hydrocarbon
Isomer

* Chapter 4 Carbon and the Molecular Diversity of Life * Carbon Chemistry Carbon is the Backbone of Biological Molecules (macromolecules) All living organisms Are made up of chemicals based mostly on the element carbon Figure 4.1 * Carbon Chemistry Organic chemistry is the study of carbon compounds Carbon atoms can form diverse molecules by bonding to four other atoms Carbon compounds range from simple molecules to complex ones Carbon has four valence electrons and may form single, double, triple, or quadruple bonds * The bonding versatility of carbon allows it to form many diverse molecules, including carbon skeletons (a) Methane (b) Ethane (c) Ethene (ethylene) Molecular Formula Structural Formula Ball-and-Stick Model Space-Filling Model H H H H H H H H H H H H H H C C C C C

Campbell Biology 9th Edition - Ch. 4 Organic Chem

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Carboxylic acid
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Substituent

Chapter 4 Carbon and the Molecular Diversity of Life I. Importance of Carbon Organic chemistry: branch of chemistry that specializes in study of carbon compounds Organic compounds: contain Carbon (& H) Major elements of life: CHNOPS Carbon can form large, complex, and diverse molecules II. Diversity of Carbon It has 4 valence electrons (tetravalence) It can form up to 4 covalent bonds Most frequent bonding partners: H, O, N II. Diversity of Carbon Bonds can be single, double, or triple covalent bonds. II. Diversity of Carbon Carbon can form large molecules 4 classes of macromolecules: carbohydrates, proteins, lipids, nucleic acids II. Diversity of Carbon Molecules can be chains, ring-shaped, or branched II. Diversity of Carbon Forms isomers

Organic Chemistry Lecture 7

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Butene
Isomer
Haloalkane

Chapter 7 ?2010, Prentice Hall Organic Chemistry, 7th Edition L. G. Wade, Jr. Structure and Synthesis of Alkenes Chapter 7 * Introduction Alkenes are hydrocarbon with carbon-carbon double bonds. Alkenes are also called olefins, meaning ?oil-forming gas?. The functional group of alkenes is the carbon-carbon double bond, which is reactive. Chapter 7 Chapter 7 * Sigma Bonds of Ethylene Chapter 7 Chapter 7 * Orbital Description Sigma bonds around the double-bonded carbon are sp2 hybridized. Angles are approximately 120? and the molecular geometry is trigonal planar. Unhybridized p orbitals with one electron will overlap forming the double bond (pi bond) . Chapter 7 Chapter 7 * Bond Lengths and Angles sp2 hybrid orbitals have more s character than the sp3 hybrid orbitals.
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