Use MO theory to explain the following: - TT 2p 2р, 2р, 2р, 2р, 2px 2ру 2pz 2px 2Py 2pz 2px 2py TT2P TT 2p 02s 2s 2s 2s 2s 02s 02s i. The first and second ionization energies of 02 are similar to each other at ~1200 kJ/mol, while the third ionization energy of 02 is significantly greater at ~1600 kJ/mol. ii. Although there are more electrons available to create bonds in F, than in 02, the bond dissociation energy is much smaller in F2 than in 02. iii. the longest wavelength of light that can be absorbed by 02 is ~100 nm. (No calculations are required for this). The longest wavelength of light that can be absorbed by N2 is ~80 nm, while

Use MO theory to explain the following: - TT 2p 2р, 2р, 2р, 2р, 2px 2ру 2pz 2px 2Py 2pz 2px 2py TT2P TT 2p 02s 2s 2s 2s 2s 02s 02s i. The first and second ionization energies of 02 are similar to each other at ~1200 kJ/mol, while the third ionization energy of 02 is significantly greater at ~1600 kJ/mol. ii. Although there are more electrons available to create bonds in F, than in 02, the bond dissociation energy is much smaller in F2 than in 02. iii. the longest wavelength of light that can be absorbed by 02 is ~100 nm. (No calculations are required for this). The longest wavelength of light that can be absorbed by N2 is ~80 nm, while

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...

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Which of the following statements are correct? o It takes a larger amount of energy to ionize a neutral, isolated, atom of an element with a ns?np? valence shell than to ionize an a neutral, isolated, atom of an element with a ns?np3 valence shell. The second ionization energy of an element with an ns' valence shell is smaller than the second ionization energy of an element with an ns? valence shell. The size of a cation is always smaller than the size of the corresponding neutral atom. The energy of a halogen atom in the gas state is smaller in magnitude than the energy of the corresponding halide anion in the gas state.
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