Course Title: Stoichiometry and solution chemistry

Part B: Course Detail

Teaching Period: Term1 2013

Course Code: CHEM5022

Course Title: Stoichiometry and solution chemistry

School: 155T Life & Physical Sciences

Campus: City Campus

Program: C3209 - Certificate III in Science

Course Contact : Nevil Schultz

Course Contact Phone: +61 3 9925 4221

Course Contact Email:nevil.schultz@rmit.edu.au

Name and Contact Details of All Other Relevant Staff

Nominal Hours: 45

Regardless of the mode of delivery, represent a guide to the relative teaching time and student effort required to successfully achieve a particular competency/module. This may include not only scheduled classes or workplace visits but also the amount of effort required to undertake, evaluate and complete all assessment requirements, including any non-classroom activities.

Pre-requisites and Co-requisites

CHEM 5021  Atomic Structure & Bonding

Course Description

The course is curriculum-based and students will learn  how:

amounts are scientifically defined in chemistry

formula masses are used to assist in calculating the number of moles of a chemical substance

the number of moles of a chemical substance can be calculated

mass relationships can be used in chemical equations

Solutions are formed & solubility varies in salts

concentrations of chemical substances are calculated

to work safely & efficiently with common laboratory chemicals & equipment

National Codes, Titles, Elements and Performance Criteria

 National Element Code & Title: VPAM083 Stoichiometry and solution chemistry

Learning Outcomes

1. Use the mole definition and formulae to solve problems
2. Derive balanced chemical equations for simple chemical reactions and apply stoichiometry to them
3. Explain solution formation and solubility
4. Solve concentration problems
5. Work safely and efficiently with common chemicals and laboratory equipment

Details of Learning Activities

Practical work in stoichiometry & concentration measurement, class presentations, Worksheet activities, assignment work

Teaching Schedule

 Class date Topic Practical % Date Due April 15 Introduction to moles 17 moles 22 lab Safety,Amounts, molar mass 24 n=m/M, equations 29 mass-amount conversions Assignment one 15 due 6 May May 1 Stoichiometry 6 mass-mass relationships Exp 1 15 due15 May 8 Problem Solving Exercises Assignment two 15 22 May 13 Balancing equations 15 Molarity c=n/V 20 Molarity c=n/V 22 Standard Solutions Exp 2 15 29 May 27 Solubility 29 Other concentrations Jun 3 Revision 5 Exam 10.30-12.30 40 10 Add. Assts 12 Add. Assts

Learning Resources

Prescribed Texts

 Nil

References

 Elvins et al, (2004) Chemistry One, Heinemann, Port melbourne Derry et al (2000), Chemistry Units 1& 2, Longman, Melbourne

Other Resources

See program black shell for general assistance details and library

Overview of Assessment

The assessment is a graded one, and a numerical score will be derived from scores obtained in tests, Practical work and assignments.

Formative Assessment:

Practical Work

Worksheets

Assignments

End of unit exam

Summative assessment:

Worksheets/Practical Work:        30%

Assignments:                                30%

Exam:                                             40%

Assignment part one: 15%

Assignment part two 15%

Practical one: 15%

Practical two 15%

exam 40%

Assessment Matrix

Other Information

For information on late submission of work or absence on the day of assessment, please go to the Program site on the Learning Hub for C3209 Certificate III in Science or contact the Program Co-ordinator, Judi Mc Cann.

Course Overview: Access Course Overview