Concept explainers
(a)
Interpretation:
Using VSEPR Theory, the geometry of each central atom present in given structure of ATP is to be identified.
Concept IntroductionBond angles in the molecules can be predicted by using valence shell electron pair repulsion (VSEPR) model. According to this model, the valence electrons of an atom are involved in the formation of single, double or triple bond. The valence electrons can also be unshared and exist as lone pair on atoms. The combination forms a negatively charged region of electron density around a nucleus. Since, like charges do not attract, the region of electron density around a nucleus spread out so that each atom is as far away from each other at different angles.
(b)
Interpretation:
Using VSEPR theory, the various relative bond angles associated with each central atom of the ATP molecule is to be determined.
Concept Introduction:
Bond angles in the molecules can be predicted by using valence shell electron pair repulsion (VSEPR) model. According to this model, the valence electrons of an atom are involved in the formation of single, double or triple bond. The valence electrons can also be unshared and exist as lone pair on atoms. The combination forms a negatively charged region of electron density around a nucleus. Since, like charges do not attract, the region of electron density around a nucleus spread out so that each atom is as far away from each other at different angles.
(c)
Interpretation:
The most polar bond in ATP is to be predicted.
Concept Introduction:
A molecule is polar if it has polar bonds and the centers of its partial positive and partial negative charge do not coincide.
(d)
Interpretation:
Observing the bonds of ATP molecule, it has to be determined whether ATP is polar or nonpolar.
Concept Introduction:
A molecule is polar if it has polar bonds and if the centers of partial positive charge and partial negative charge lie at different places with in the molecule.
Want to see the full answer?
Check out a sample textbook solutionChapter 3 Solutions
Introduction to General, Organic and Biochemistry
- 3-106 Consider the structure of Penicillin G shown below, an antibiotic used to treat bacterial infections caused by gram-positive organisms, derived from Penicillium fungi: (a) Identify the various types of geometries present in each central atom using VSEPR theory. (b) Determine the various relative bond angles associated with each central atom using VSEPR theory (c) Which is the most poiar bond in Penicillin G? (d) Would you predict Penicillin G to be polar or nonpolar?arrow_forward3-109 Until several years ago, the two chlorofluorocarbons (CFCs) most widely used as heat transfer media in refrigeration systems were Freon-li (trichloro fluoromethane, CC13F) and Freon-12 (dichiorodi fluoromethane, CCl2F2). Draw a three-dimensional representation of each molecule and indicate the Direction of it.s polarity.arrow_forward3-127 Amoxicillin is an antibiotic used to treat bacterial infections caused by susceptible microorganisms. Consider the skeletal structure of amoxicillin (y refer to the structure at bottom of page). Where all the bonded atoms are shown but double bonds, triple bonds, and/or lone pairs are missing: (a) Complete the structure of amoxicillin. (b) Identify the various types of geometries present in each central atom using VSEPR theory (e) Determine the various relative bond angles as sociated with each central atom using VSEPR theory. (d) What is the most polar bond in Amoxicillin? (e) Would you predict amoxicillin to be polar or nonpolar? (f) Is amoxicillin expected to possess resonance? Explain why or why not. V Chemical structure for problem 3-127arrow_forward
- 3-105 Consider the structure of Vitamin E shown below, which is found most abundantly in wheat germ oil, sunflower, and safflower oils: (a) Identify the various types of geometries present in each central atom using VSEPR theory. (b) Determine the various relative bond angles as sociated with each central atom using VSEPR theory. (c) Which is the most polar bond in Vitamin E? (d) Would you predict Vitamin E to be polar or nonpolar?arrow_forward3-120 Vinyl chloride is the starting material for the production of poly(vinyl chloride), abbreviated PVC. Its recycling code is “V”. The major use of PVC is for tubing in residential and commercial construction (Section 12-7). (a) Complete the Lewis structure for vinyl chloride by showing all unshared pairs of electrons. (b) Predict the HCH, HCC, and ClCH bond angles in this molecule. (c) Does vinyl chloride have polar bonds? Is it a polar molecule? Does it have a dipole?arrow_forward3-31 Why does electronegativity generally increase going from left to right across a row of the Periodic Table?arrow_forward
- 3-107 Ephedrine, a molecule at one time found in the dietary supplement ephedra, has been linked to adverse health reactions, such as heart attacks, strokes, and heart palpitations. The use of ephedra in dietary supplements is now banned by the FDA. (a) Which is the most polar bond in ephedra? (b) Would you predict ephedra to be polar or nonpolar?arrow_forward3-89 Is it possible for a molecule to have no polar bonds and yet have a dipole? Explain.arrow_forward3-41 Describe the structure of sodium chloride in the solid state.arrow_forward
- 3-119 Perchloroethylene, which is a liquid at room temperature, is one of the most widely used solvents for commercial dry cleaning. It is sold for this purpose under several trade names, including Perciene®. Does this molecule have polar bonds? Is it a polar molecule? Does it have a dipole?arrow_forward3-122 Some of the following structural formulas are incorrect because they contain one or more atoms that do not have their normal number of covalent bonds. Which structural formulas are incorrect, and which atom or atoms in each have the incorrect number of bonds?arrow_forward3-64 Acetylene (C2H2), hydrogen cyanide (HCN), and nitrogen (N2) each contain a triple bond. Draw a Lewis structure for each molecule. Which of these are polar molecules, and which are nonpolar molecules?arrow_forward
- Introduction to General, Organic and BiochemistryChemistryISBN:9781285869759Author:Frederick A. Bettelheim, William H. Brown, Mary K. Campbell, Shawn O. Farrell, Omar TorresPublisher:Cengage Learning