The energy needed to distort a C-F bond by 0.8 A is 934 kJ/mol. The bond length of this bond is 1.33 A. a) At a temperature of 100°C, the average kinetic energy of the atoms is about: 4.6 kJ/mol Ⓒ460 kJ/mol 4.6 x 10³ kJ/mcl b) How likely is it for such a distortion to occur on this C-F bond at this temperature? Fill in the blanks with one of the choices given. The distortion is likely since the energy needed to distort this bond at this temperature c) How much % of the bond length (/) is this distortion length (-/-)? 60% 0.6% 100% 4.6x10³ kJ/mol much higher than the RT value. 6%

The energy needed to distort a C-F bond by 0.8 A is 934 kJ/mol. The bond length of this bond is 1.33 A. a) At a temperature of 100°C, the average kinetic energy of the atoms is about: 4.6 kJ/mol Ⓒ460 kJ/mol 4.6 x 10³ kJ/mcl b) How likely is it for such a distortion to occur on this C-F bond at this temperature? Fill in the blanks with one of the choices given. The distortion is likely since the energy needed to distort this bond at this temperature c) How much % of the bond length (/) is this distortion length (-/-)? 60% 0.6% 100% 4.6x10³ kJ/mol much higher than the RT value. 6%

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

See similar textbooks

Similar questions

ding 1.pdf (63.5 KB) AH (kJ) -400 Chemical Equation Process Formation M(s) +1/2X2(g)→MX(s) 55 Sublimation 246 First lonization Energy Bond dissociation 200 -150 X(g) + e (g) → X(g) Electron Affinity Lattice Energy చంత త
= ELECTRONIC STRUCTURE AND CHEMICAL BONDING Predicting bond angles in molecules with one central atom and... What is the angle between two of the carbon-chlorine bonds in the carbon tetrachloride (CC14) molecule? O X Ś
The bond lengths of the Br-X bonds in BrF, BrCl, and BrI are 1.76, 2.14, and 2.47 Å, respectively. Estimate the length of the Br-Br bond in Br2. Which of these four halides has the strongest Br-X bond?Estimated Br-Br bond length = Å Strongest Br-X bond i
PCl3(g) + Cl2 (g) --><-- PCl5(g) A. Use a bond energy to find deltaHo for the reaction. Cl - Cl, 339 kJ/mole; P - Cl, 289 kJ/mole. B. Calculate the value of deltaSo for the reaction. So(PCl5) = 364.2 J/mol * K; So(PCl3) = 311.6 J/mol * K; So(Cl2) = 165.2 J/mol * K.
Rank the elements or compounds in the table below in decreasing order of their boiling points. That is, choose 1 next to the substance with the highest boiling point, choose 2 next to the substance with the next highest boiling point, and so on. chemical symbol, chemical formula or Lewis structure substance boiling point H :0: .. A Н— С C - N - CH, (Choose one) Br CH, CaBr, (Choose one) v В CH3 CH3 -N - Choose one) CH3 H н :0: H D (Choose one) v Н — С — С — С — Н н н H
Is the N¬N bond length in these molecules shorter or longer than the N¬N bond length in N2?
Pls help
9. Acetylene gas (C2H2) is used in welding. Use bond dissociation energies to determine the AErxn, in kJ/mol C2H2, for the reaction: 2 C2H2(g) + 5 Oz(g) → 4 CO2(g) + 2 H2O(g)
19 A molecule is made from four atoms. The first atom (A) has four valence electrons, the second atom (B) has 6 valence electrons, and the other two atoms (C) each have 7 valence electrons. What is the geometry of the molecule ABC2?
What are the angles a and b in the actual molecule of which this is a Lewis structure? H H H C H a a = C b = ⁰ C H Note for advanced students: give the ideal angles, and don't worry about small differences from the ideal that might be caused by the fact that different electron groups may have slightly different sizes. H X
3
Answer the following questions about the Lewis structure for the organic molecule CH3CH2CH2CN (see examples in Chapter 10) There are valence electrons. The molecule has single bonds, double bonds, and triple bonds. The three central C atoms on the left have REDS and the shape at each of these is The central C on the right has REDS and the shape is The AENC-N = 0.49 which is only slightly polar and we will consider it to be nonpolar. %3D Since there is only slightly polar covalent bond, the molecule is mostly а. О b. 1 С. 2 d. 3 е. 4 f. 5 g. 8 h. 10 i. 12 j. 14 k. 16 I. 18 m. 20 n. 24 О. 28 р. 30 q. 32 r. 34 S. 36 t. diatomic u. pyramidal v. linear w. monoatomic ions x. tetrahedral y. trigonal planar z. bent aa. 120° bb. 180° dd. 109.5° cc. no bond angles, no central atom nonpolar ее. polar ff. gg. ionic hh. C and C