Felder, Richard, "Getting Started."
Chem. Engr. Education, 29(3), 166-167 (Summer 1995).


Richard M. Felder
Department of Chemical Engineering
North Carolina State University
Raleigh, North Carolina

Rebecca Brent
School of Education
East Carolina University
Greenville, North Carolina

The first day of a course may not determine how well the rest of the course works, but it goes a long way. A good start can carry the instructor through several weeks of early shakiness, and a bad one can take several weeks of damage control to overcome.

Instructors have come up with many ways to get courses started - some effective, others less so. A relatively ineffective way is to stride into class, announce your name, the course, and the course text, and start to write differential equations on the board. Following is an alternative approach with somewhat better prospects.

Opening Formalities. Introduce yourself and hand out the following items.

  1. A syllabus containing the course name and catalog description, your name, office number, and office hours, the course prerequisites, and required and supplementary texts. In addition, if you plan to use e-mail or a list server for student conferencing (a fine idea), include the necessary information on the syllabus or a separate handout.

  2. A list of instructional objectives - the things you expect the students to be able to do (calculate, estimate, explain, design, create,...) by the end of the course. This list serves several purposes. It helps you plan lectures and class activities and prepare homework assignments and tests, helps the students understand the course structure and prepare for exams, and tells faculty colleagues who teach subsequent courses exactly what students who pass this one should know.[1] The list may be nontrivial to construct initially, but it is easy to modify in subsequent course offerings.

  3. An assignment schedule with dates for all reading and problem assignments and examinations. Handing out a complete assignment schedule on the first day can help you stay on track during the semester and setting all exam dates on Day 1 cuts down considerably on the griping about time conflicts that always occurs when instructors schedule tests a week or less in advance.

  4. A statement of policies and procedures. Answer questions like "What counts toward the final course grade and by how much?" "How many tests?" "Open-book or closed-book?" "Is the lowest test grade dropped or given less weight than the other test grades?" "What happens if a student misses a test with a valid excuse? Without one?" "Will homework be accepted late?" "May students work in groups on homework?" "Must they do so?" "What's the attendance policy?"

Spend time in class only on Item 4, concentrating on policies that may be new and unfamiliar to the students. Putting all of the information in Items 1-4 on handouts and not taking up class time for most of it buys time for some of the first-day activities to be suggested.

We strongly reccomend putting your policies and procedures in writing and handing them out on the first day of class. Students will accomodate to any set of rules you give them up front, as long as the rules are clear, reasonable, and consistently enforced. It's when you make them up as you go that the lawyers come out of the woodwork, and you end up spending much more time on explanations and arguments during and after the course than it would have taken you to prepare the handout before the course.

Do something that will help you learn the students' names. For example, circulate sign-up sheets by rows and ask the students to keep their seats for at least a few weeks. Prepare a seating chart after the class and use it thereafter to associate names with faces. In small introductory or elective classes where the students are mostly unknown to you and possibly to one another, you might have them all give their names and state a hobby or something unusual about themselves while you take notes.

Do something to motivate the student's interest. Following are possible things you might do in the first one or two class periods.

Don't attempt to implement all of these ideas in a single class; it would take too long and would overwhelm most students. Rather, glance through the list before the course begins, pick one or two activities that look like they might be appropriate for your class and your students, and give them a try. Afterwards write a few notes on how well or poorly each exercise worked and what you would do differently next time. It should only take a few iterations to find the optimal combination of exercises for each course you teach.


  1. Wankat, P., and F. Oreovicz, Teaching Engineering,. McGraw-Hill, New York, NY, 47 (1993).
  2. Felder, R.M., "Knowledge Structure of the Stoichiometry Course," Chem. Engr. Ed., 27(2), 92 (1993).
  3. Felder, R.M., "Reaching the Second Tier: Learning and Teaching Styles in College Science Education," J. Coll. Sci. Teaching, 23(5), 286 (1993).
  4. Johnson, D.W., R.T. Johnson, and K.A. Smith, Active Learning: Cooperation in the College Classroom, Interaction Books, Edina, MN (1989).
  5. Felder, R.M., "We Never Said It Would Be Easy," Chem. Engr. Ed., 29(1), 32 (1995).

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