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Atkins' Physical Chemistry | 11th Edition | ISBN: 9780198769866 | Authors: Atkins, Peter; De Paula, Julio; Keeler, James ISBN: 9780198769866 2042

Solution for problem E13F.2(b) Chapter 13F

Atkins' Physical Chemistry | 11th Edition

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Atkins' Physical Chemistry | 11th Edition | ISBN: 9780198769866 | Authors: Atkins, Peter; De Paula, Julio; Keeler, James

Atkins' Physical Chemistry | 11th Edition

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Problem E13F.2(b)

Use the information in Exercise E13E.3(b) to calculate the electronic contribution to the molar Gibbs energy of \(\mathrm{O}_{2}\) at 400 K.

Text Transcription:

O_2

Step-by-Step Solution:
Step 1 of 3

20.1 Electron Configurations • Transition metals lose their ns electrons before the (n-1)d electrons 20.2 Properties of Transition Elements • Atomic radii of d-block elements decrease gradually from left to right across the period then increase again at the end. • • This trend is due to lanthanide contraction which is increasing nuclear charge and increasing number of electrons. o Many of the electrons reside in the (n-2)f subshell. The f subshell is not effective at shielding the outer electrons from Zeff 20.3 Oxidation States of Transition Metals • Oxidation States: o Transition metals exhibit a variety of oxidation states. o Successively larger amounts of energy are require to remove each electron from an atom/ion. § 20.5 Coordination Compounds • Ligand: a molecule/ion that surrounds the central metal ion in a coordination compound. o Must have at least one pair of unshared electrons • Ligand donor atom: the atom in the ligand that is attached directly to the metal. o The formation of a coordination compound is a Lewis acid-base reaction. • The formation of a coordination compound is a Lewis acid-base reaction o A Lewis acid is an electron pair acceptor o A Lewis base is an electron pair donor o The central metal ion acts as the Lewis acid o Ligands act as Lewis bases • When viewing a coordination compound formula:

Step 2 of 3

Chapter 13F, Problem E13F.2(b) is Solved
Step 3 of 3

Textbook: Atkins' Physical Chemistry
Edition: 11
Author: Atkins, Peter; De Paula, Julio; Keeler, James
ISBN: 9780198769866

Since the solution to E13F.2(b) from 13F chapter was answered, more than 201 students have viewed the full step-by-step answer. This full solution covers the following key subjects: . This expansive textbook survival guide covers 327 chapters, and 1120 solutions. Atkins' Physical Chemistry was written by Aimee Notetaker and is associated to the ISBN: 9780198769866. The full step-by-step solution to problem: E13F.2(b) from chapter: 13F was answered by Aimee Notetaker, our top Chemistry solution expert on 04/25/22, 03:45PM. The answer to “?Use the information in Exercise E13E.3(b) to calculate the electronic contribution to the molar Gibbs energy of \(\mathrm{O}_{2}\) at 400 K.Text Transcription:O_2” is broken down into a number of easy to follow steps, and 22 words. This textbook survival guide was created for the textbook: Atkins' Physical Chemistry, edition: 11.

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