JCE 1998 (75) 61 [Jan] Demonstrations on Paramagnetism with an Electronic Balance


	\| Subscriptions \| Software Orders \| Support \| Contributors \| Advertisers \|

JCE Print

Current Issue
Previous Issues
Supplements
Search JCE Index

JCE Digital Library

JCEDLib Catalogue

ChemInfo
Data-Driven Exercises
DigiDemos
Featured Molecules
LivTexts
LrnCom
QBank
SymMath
WebWare

JCE Software

Latest Releases
Software & Video
Downloads
Support

Only@JCE Online

JCE Online Store
JCE HS CLIC
JCE Discussion Forums

Biographical Snapshots
ChemEd Resource Shelf
Featured Molecules
Hal's Picks
Project Chemlab
Reviewed WWW Sites
"Web-Ed" Articles

About JCE

Features
Publications
Operations
Outreach
Contact Us

Home > JCE Print > Journal of Chemical Education > Issues > 1998 > January >

In the Classroom

Filtrates and Residues

Demonstrations on Paramagnetism with an Electronic Balance

Adolf Cortel
Institut de Batxillerat El Cairat, Gorgoncana 1, 08292 Esparreguera, Barcelona, SPAIN

January 1998
Vol. 75 No. 1
p. 61

Table of Contents
Supplements in This Issue
Previous Article
Next Article

Full Text (PDF)

Abstract

The paramagnetism of inorganic compounds is related to the number of unpaired electrons of the atoms. Thus, can be used to stablish oxidation states and bonding properties. A simple set-up made with a powerful neodymium magnet over the plate of an electronic balance allows measuring the force of attraction over a solid substance or a solution in a test tube. The lack of paramagnetism of salts whose elements have complete electronic subshells and the comparison of the force of attraction over compounds of the same metal in different oxidation state (as potassium ferro and ferricianide, or salts of Cu(I) and Cu(II)), allows to confirm that paramagnetism is associated to the number of unpaired electrons. The splitting of the five d orbitals according to the ligand field theory allows to justify the different behavior of some Fe(II) or Fe(III) compounds. The graph of the force of attraction over each mole versus the number of unpaired electrons fits to the second grade polynomial k(N²+2N) predicted by the theory of magnetochemistry. This set-up also allows demonstrating the diamagnetism of solid bismuth.

More Information
Citation	Cortel, Adolf. J. Chem. Educ. 1998 75 61.
Keywords	Demonstrations, Inorganic Chemistry, Magnetic Properties, Atomic Properties/Structure, and Bonding Theory
History	Created: Last Updated:	June 28, 1999 June 23, 2005


<< Previous Article	Table of Contents	Next Article >>

Home > JCE Print > Journal of Chemical Education > Issues > 1998 > January > Page 61

Chemistry Teacher Connection

The "Chemistry Teacher Connection" (CTC) is especially for high school chemistry teachers. For only $40/year, it offers an online-only subscription to CLIC along with membership in the Division of Chemical Education, normally $65/year. CTC subscribers receive access to all articles and supplements from 1996 through the current issue.

More About CTC

Order the Chemistry Teacher Connection

C&EN CLICs

Through special arrangement with the ACS, JCE High School CLIC is now able to provide subscribers with online access to Chemical & Engineering News articles that have been selected specifically for secondary science instructors and their students.

C&EN CLICs

JCE Collections Available

Occasionally, collections of JCE back issues become available for donation to individual teachers, schools, or libraries. JCE matches collections with interested recipients. Recipients pay shipping costs or pick up the collection.

List of available collections

Contributions Welcome

JCE welcomes your submission

Contributors's Corner

Subscriptions

Subscription Info
Order Forms

Fishing for New Ideas

Always in the
process of
improving, CLIC
welcomes ideas and comments.

Email Us


Comments to jceonline@chem.wisc.edu	Copyright © Division of Chemical Education, Inc., American Chemical Society. All rights reserved.