1. Conceptual Understanding versus Algorithmic Learning
Margaret Asirvatham and Thomas Pentecost
Chemistry & Biochemistry
TIGER Presentation
January 24, 2008

2. Chemical Education Research
Many novice learners tend to apply algorithms without significant conceptual understanding that must be developed for students to be successful problem-solvers.
Chemistry problems are challenging as they may be expressed in different ways - symbolically, at the particulate (atomic/molecular) level, or at the macroscopic level.

3. Limiting Reactant: Lecture Demo Interactive Engagement
Mg(s) HCl(aq)  MgCl2(aq) + H2(g)
Flask # Moles of Mg(s) Moles of HCl(aq)
Flask
Flask
Flask
Flask
What will be the relative sizes of balloons above the flasks when the reaction is complete?
A) V1 = V2 = V3 = V4
B) V1 < V2 < V3 < V4
C) V1 < V2 < V3 = V4
D) V1 < V2 = V3 < V4
E) V1 < V2 = V3 = V4
Colors represent three different lecture sections taught by the same instructor.

4. Limiting Reactant: Atomic/Molecular View
The diagram represents a mixture of S atoms and O2 molecules in a closed container.
Which diagram shows the results after the mixture reacts as completely as possible according to the balanced equation:
2S + 3O2  2SO3
(a) (b) (c) (d) (e)
Only 15% of the students (Spring 2006) selected the correct answer (d) after a whole semester of Gen Chem 1!
Fall 2006 (Pre) 10.5% correct; (Post) 41.8%
S atom
O2 molecule

5. Can our students interpret atomic/molecular view representations?
H2O(s)  H2O(l) 2H2O(l)  2H2(g) + O2(g)
Acknowledgment: Silberberg’s “Chemistry: The Molecular Nature of Matter and Change”

6. General Chemistry Concepts Exam 1 Question, Fall 2006
Examine the molecular views presented below:
Which of these represents a pure compound?
A) I (601) B) II (11) C) III (1) D) IV (179)

7. General Chemistry Concepts Final Exam Question, Fall 2006
Which of these atomic/molecular views represent pure substances?
A) I and III (1) B) II and IV (55)
C) I, II and IV (616) D) II, III, and IV (7)

8. General Chemistry Concepts Exam 1 Question, Fall 2006
Consider the molecular views of reactants as they are converted to products in the boxes shown below:
Which of these best represents the balanced equation for this reaction?
A) NO + Cl2  Cl2NO (69) B) 2NO + Cl2  2ClNO (677)
C) N2 + O2 + Cl2  2ClNO (3) D) NO + Cl  ClNO (43)

9. General Chemistry Concepts Exam 1 Question, Fall 2006
Examine the molecular view of the chemical reaction between AB and B2 in the gas phase:
Select the correct statement about this reaction.
A) The balanced equation for the reaction is AB + B2  AB3. (23)
B) AB and B2 are present in stoichiometric amounts at the start of the reaction. (131)
C) AB is the limiting reactant. (615)
D) The product of the reaction is A2B. (23)

10. Meta-communication
“The most powerful tool for changing students’ attitudes about learning and enlisting them as active collaborators in their own education is meta-communication  high level communication about the nature and purpose of the “normal communication” within the course.”
Beatty, “Transforming Student Learning with Classroom Communication Systems,” EduCause Research Bulletin, Volume 2004, Issue 3, February 2003, p. 11.

11. Meta-communication
“Meta-communication can and should address the learning objectives of the course and its components, the virtues of instructional techniques and styles employed, and the reasons why particular assignments are given. Experience shows that students are far more cooperative when they understand why they are being asked to do something.”
Beatty, “Transforming Student Learning with Classroom Communication Systems,” EduCause Research Bulletin, Volume 2004, Issue 3, February 2003, p. 11.

12. Cubic Unit Cells
Acknowledgment: Silberberg’s “Chemistry: The Molecular Nature of Matter and Change”

13. Solid State: Cubic Systems Using New Lecture Demo Models
Consider an atom in the simple cubic crystal lattice. What is the maximum number of unit cells that share this atom in the three-dimensional structure?
A) 2
B) 4
C) 6
D) 8
E) 12
Before After

14. Cubic Unit Cells

15. Simple Cubic Crystal Lattice

16. Lessons Learned
Atomic/molecular visualization skills must be developed and reinforced
Formative assessment with clickers and peer collaboration in large lecture classes
Conceptual questions must be developed to address higher-order thinking skills as well as common misconceptions
Integration of real-world context and effective lecture demonstrations are essential

17. Solutions

18. Chemistry Concept Challenges F06/Sp07
Series of assignments developed to:
Think in terms of “atoms and molecules” (and ions)
Make connections among macroscopic observations, symbolic representations, and what’s happening on the particulate level
Use, interpret, produce, and translate among various representations in chemistry (words, symbols, particulate-level representations, mathematical relationships, graphs)
Articulate their understanding
Relate chemistry to the “real world”
Make connections among several chemistry concepts

19. Examples:
Representations of Matter
Reactions in Solutions
Gases

20. Recitation Workshops F07/Sp08
Background
CHEM 1111 & credits
3 hrs/week lecture
4 hrs/week recitation/lab
Incorporate CCCQ materials into recitation sessions.
Allows materials to be used in a group work environment.
Allows us to follow physics workshop model.
Removes grading burden from TAs.

21. Recitation Materials
Merged CCCQ materials with existing materials (algorithmic problems)
Some CCCQ materials became pre or post laboratory questions.
Some new materials written.
Ex: Thermochemistry

22. Implementation
To implement this model for recitation needed to train TAs to facilitate.
Before fall semester three day training for new graduate students that were likely to teach CHEM 1111 that term.

23. TA Training Three days (Wed - Fri)
~ 1.5 days on Chemical Education Research and justification for recitation model.
~1.5 days on content - modeling recitation sessions with 6 of the content units.

24. Support
At weekly TA meetings suggestions for use of the materials were presented.
Areas of potential student confusion were pointed out.

25. Evaluation Observations of Recitation sessions were done, limited.
Students were interviewed about aspects of the course.
TA feedback in the form of written comments at various times during semester.
Results of Concept Survey.

26. Results to Date Seeing some movement in the desired direction.
TA training was successful!
Faculty comments
TA feedback

27. Thanks!