Teaching a Course to Non-Majors Dr. Johnny B. Holmes Dean of the School of Sciences, and Professor of Physics Excellence in Teaching Workshop at CBU, August 15, 2002
Dec 27, 2015
Teaching a Course to Non-Majors
Dr. Johnny B. Holmes
Dean of the School of Sciences, and Professor of Physics
Excellence in Teaching Workshop at CBU, August 15, 2002
Five Elements
I. Show Enthusiasm and Love of Subject
II. Provide a Framework for the Subject
III. Build on What Students Already Know about the Subject
IV. Provide (Graded) Practice
V. Remove Excuses for Failure
I. Show Enthusiasm and Love of Subject
People like to associate with fun people.Show enthusiasmSuggest surprise (absurd) answersSprinkle in humor (positive, not negative humor)
People like to do fun things.Show demonstrations
Make sure you show that the subject is fun and not just the instructor!
I. Show Enthusiasm and Love of Subject
Enthusiasm
When I teach, I get excited because I find the material is so interesting and fun. I think it is essential to try to show that enthusiasm to my students. Several have told me directly that they enjoy my class because they like to watch me be so energetic and enthusiastic!
I. Show Enthusiasm and Love of Subject
EnthusiasmI have found it very useful to “talk” to the students
about the subject. I do this by asking a lot of questions - some rhetorical and some that I expect an answer. I seldom take the first answer as the answer for the whole class, though. I will ask others if they agree or disagree with it. If there is more than one answer suggested, I may ask the class to “vote” for their choice. After the vote, I will ask one of the voters to defend their vote, and then ask another from the other side as well.
I. Show Enthusiasm and Love of Subject
Surprise AnswersSometimes, though, especially if the class is not
responding, I will suggest a “surprise” answer. Example: Question: How do you stop a car? Obvious Answer: Step on the brake. Surprise Answer: Why not just open the door and drag your foot? Follow-up question: How does the brake work - do you need the engine on to have the brake work?
I. Show Enthusiasm and Love of Subject
Surprise answersAnother Example: Question: How does
gravity work? Surprise Answer: There are little devils on the floor that lasso you and pull you down when you jump up. A famous basketball player paid them off so he could jump high. He got tired of paying the extortion, so he quit. He earned enough making commercials, so he un-retired.
I. Show Enthusiasm and Love of Subject
DemonstrationsPeople learn a lot by “seeing”. We even use the
expression “I see” to mean “I understand”.Computer are very good at calculations, but it is
extremely hard to program a computer to interpret a picture or diagram. People, on the other hand, are not very good at making lots of calculations accurately, but people are very good at interpreting pictures and diagrams - at getting information by sight. Demonstrations take advantage of this natural human ability.
I. Show Enthusiasm and Love of Subject
DemonstrationsDepending on the subject, some
demonstrations take a lot of equipment and preparation.
Other demonstrations can be done with common things and little if any preparation.
Sometimes, you can even use the student’s own experiences as “demonstrations”.
I. Show Enthusiasm and Love of Subject
DemonstrationsExample: Open versus closed universe. Can we have a
universe that has a finite amount of volume but no edges (a closed universe)? Demonstration: A line is one dimensional (needing one number to locate any point). Can you have a line with no edges but a finite length? Yes - if you curve the line into a circle. A surface is a two dimensional situation. Can you have a surface with no edge but a finite area? Yes - if you curve it into a sphere. Now - what about a three dimensional volume?
II. Provide a Framework for the Subject
• Where is the course going?
• Identify major elements
• Distinguish major principles from details
How to show this to students?– Syllabus– Study Guides– Notes (powerpoint slides)
II. Provide a Framework for the Subject
The next several slides show the goals for my PHYS 201 Introductory Physics I class this fall as contained in the syllabus:
GOALS: The course is designed to: 1. Teach the concepts of vectors, inertia, force,
energy, power, and heat; to introduce Newton's laws of motion & law of gravity; conservation laws of energy, momentum and angular momentum; 1st and 2nd laws of thermodynamics:
II. Provide a Framework for the Subject
Goals for PHYS 201 - cont:1 a) To provide a fund of concepts, images, and
metaphors that can be utilized to imagine how other things in the world might work.
1 b) To give you an idea of the size of some quantities (e.g., size of the earth, power of a normal human heart, values for coefficients of friction of common substances).
1 c) For use in future courses.
II. Provide a Framework for the Subject
Goals for PHYS 201 - cont:1 d) To aid you in your attempt to find your place in
the natural world as well as to aid you in your attempt to become an intelligent and responsible citizen.
2. Demonstrate how physical phenomena can be organized and described both qualitatively and quantitatively by theory.
3. Reinforce the application of analytical reasoning.
II. Provide a Framework for the Subject
My complete syllabus, as well as my study guides and powerpoint slides (class notes) for the PHYS 201 course can be found on the web at:
http://www.cbu.edu/~jholmes/P201/intro.html
In this talk I am trying to model how I use powerpoint slides as notes in class.
III. Build on What Students Already Know about the Subject • What do the students already know about the
subject?– common sense
• How do they know it?– verify their common sense
• How do you extend their knowledge?– extend their common sense into the uncommon
• Link the new knowledge to the old knowledge
III. Build on What Students Already Know about the Subject
In the example on the “closed universe” earlier, I used this procedure of building on what students already knew (circle and sphere) and extended those ideas into the universe.
III. Build on What Students Already Know about the Subject
Another Example: According to a law of physics, the force of friction does NOT depend on the area of the object. This is counter-intuitive to most students. The law says that the force of friction depends on the two types of surfaces (e.g., wood on wax, wood on wood, wood on concrete) and on the force pressing the two surfaces together (contact force).
III. Build on What Students Already Know about the Subject
Because this law is counter-intuitive, I bring up a case that seems to violate it: wide tires on sports cars. We then investigate the purpose of wide tires. Is it just to make the tire companies more money by allowing them to sell more expensive tires? (Note the humor in this question - part of Principle I.) What about dump trucks - they have wide tires (many tires). Do their wide tires help them go fast?
III. Build on What Students Already Know about the Subject
In this discussion about friction, I use an eraser on the board as a demonstration of friction. Is it “easy” to move the eraser on the board? Is it still “easy” if I press real hard on the eraser? (Is this the idea of a clamp?) Does it get easier or harder if I put the eraser on its side (reduce the area)? I then tell them they will see for themselves this effect in an upcoming lab. Recall that demonstrations were part of Principle I.
IV. Provide (Graded) Practice
• Encouraging practice outside of class allows more time in class for talking to students
• Practice involves using specific algorithmsHow to do this:
– use computer assisted homework programs– use collected homework done with a 7-step
problem solving paradigm– use notes (powerpoint slides with examples)
IV. Provide (Graded) Practice
Computer Assisted HomeworkThe computer assisted homework programs
have been a tremendous help. However, they have taken a lot of time for development.
One of the main advantages of this type of system is the immediate feedback that students get.
IV. Provide (Graded) Practice
Computer Assisted HomeworkA second advantage is the assistance that the
programs provide to the student to aid them in figuring out what they did wrong and how to do the problem correctly.
A third advantage is the fact that the computer can change the problems each time they are run, so the student can continue to practice until the student obtains a perfect score.
IV. Provide (Graded) Practice
Computer Assisted HomeworkA fourth advantage is the fact that the
computer can grade the work, so it saves the instructor grading time.
By giving practice outside of class, the instructor is free to spend more time in class “talking to students”. By removing some of the routine grading, the instructor has more time to further develop the class.
IV. Provide (Graded) Practice
The computer assisted homework is designed to give the student practice and to test to see that the students can in fact do the problem accurately. But there is another important aspect of solving problems, and that is communication.
Collected HomeworkThe primary purpose of the collected
homework (now that the practice aspect has been reduced) is to teach the student how to communicate their solution to others.
IV. Provide (Graded) Practice
Collected Homework
To both aid in the communication process, and to show how experts attack difficult (not trivial or obvious) problems, I ask the students to follow a seven-step problem solving paradigm when submitting their collected homework.
IV. Provide (Graded) Practice
Seven Step Problem-Solving Paradigm1. Do I really want to solve the problem?2. Define the situation3. Define what I’m trying to solve for4. Brainstorm5. Plan the attack6. Execute the plan7. Check to see if the answer is reasonable
IV. Provide (Graded) Practice
Collected Homework
The paradigm does not always proceed from step 1 through step 7 in one pass. Often, you find that in doing one step, you have a better idea about something in a previous step.
IV. Provide (Graded) Practice
Collected HomeworkTwo of the steps deserve special mention here:
Step 2, define the situation, means draw a diagram. This helps the students “see” the situation (Principle I) and it connects with what the student already knows (Principle III).
Step 7, check your answer, also connects with Principle III - verify and extend what the student knows.
V. Remove Excuses for Failure
• Allow “redo” on homework• Drop a test score and/or allow “redo” on one
testPositives
– allows students to learn from their mistakes– takes away from ability to blame others
Negatives– allows students to procrastinate– adds to grading burden on instructor
V. Remove Excuses for Failure
Redo’s do take more instructor time. However, the question is this: is it better to have more graded homework problems, or have less graded homework problems but have to do them twice?
My fear, based on my experience, is that many students tend to ignore corrections if they have no immediate (graded) incentive to act on those corrections.
With the computer assisted homework doing the job of practice, I can then have fewer collected homework problems which allows me to implement the “redo” policy.
Five Elements
I hope this presentation has shown how I use the five elements in my courses:
I. Show Enthusiasm and Love of SubjectII. Provide a Framework for the Subject III. Build on What Students Already Know
about the SubjectIV. Provide (Graded) PracticeV. Remove Excuses for Failure