Location and Time - Halsell 228, 10:30-11:20 and 11:30-12:20 MWF
Professor - Dr. Mark Lewis, Office: HAS 201K, Phone: 999-7022, e-mail: mlewis@trinity.edu. The best way to reach me typically is by e-mail. I check it frequently and try to respond promptly.
Office Hours - 2:30-4:30 MWR or by appointment. I'm in my office a lot so you should free to drop by. If you are coming from lower campus you can always call or write a short e-mail to see if I'm in and available at that time.
Text - "C Programming: A Modern Approach" by K.N. King.
Course Description - This course is the first course for computer science majors, following the guidelines established by the Association for Computing Machinery. This course partially satisfies the requirements for Understanding the World Through Science of the common curriculum. The course content includes learning about block structured strongly typed programming languages as well as conceptual information including beginning data structures, computer arithmetic, computer organization, operating systems, programming languages, sorting and searching. Our study will include data types, arrays, strings, structures, files, recursion, decisions and loops.
This course is being taught as an interoduction to imperative programming in the C programming language. However, the true nature of this course is to teach you how to use computers to solve problems. We will look at how the basic logical constructs available in most programming languages can be put together to enable you to solve significant problems using the computer. We will be doing the work for this class under the Linux operating system using the GNU C compiler.
As my previous students can attest, the courses that I teach are aggressive. I have one overriding objective in my courses and that is to make you think. If I make you think new thoughts for most of the semester I will have done well. If I give you new ways to think thoughts (old and new), then I will truly have succeeded. This course is not about busy work, though inevitably a fair bit of work will be required. Exactly how much work you have to put in will often be inversely proportional to how much you think about the work that you should be doing. Writing programs on the scale of most of the assignments for this course requires some design and thought to make sure that what you are trying to do will actually accomplish what you want it to and that it will do it correctly. Failure to think nearly always leads to more work for you in the end.
Assignments - The assignments in this course will be primarily small pieces of code that are designed to test if you understand, and can use the concepts. They will typically have you solving some small problem with the help of the computer. Some assignments will involve the same problem and show you how it can be solved in different ways as you gain new tools to work with.
The work you submit for your assignments should be of your own construction. You should feel free to confer with your fellow students or other people you might know about general questions dealing with the design of your programs or about specific syntactic problems. Having other people write code for you, or working from other people's code will be considered cheating and will carry repercussions as dictated by the student handbook. In general, the safest route when you have questions about assignments is to come talk to me. It should be said that this should in no way preclude you from studying the concept of computer programming with your follow students. Only discussions specific to the assignments are potentially risky.
Coding Practices - You are expected to follow certain coding practices for any code that you turn in as work in this course. In this sense I'm fairly lenient. I only require uniform indentation and reasonable documentation. I will not help you to debug any code that it not well indented. I don't care exactly how you decide to align brackets or put in white space (though some white space is helpful), but you have to be uniform, and all blocks of code should be indented beyond what the surrounding code had been.
Grades - The grade for this course will be composed of four components. These components and what the entail is discussed below. This table summarizes how each component contributes to your grade in the course.
Component |
Percentage
|
Assignments (10) |
50%
|
Tests (2) |
30%
|
Quizzes (6 drop 1) |
10%
|
Class Participation |
10%
|
Assignments - The nature of the assignments was discussed in the previous section of the syllabus. Ten assignments will be given over the course of the semester and each will contribute equally to this portion of your grade. Unless otherwise specified, all assignments will be due on the date shown on the course schedule. Late assignments will be deducted 10 points for each day that they are late. After 5 days they will not be accepted. All submitted assignments must also compile and run using the gcc compiler on the CS machines. It doesn't matter if it worked for you under MSVC or Borland, if it doesn't work for me with gcc you will receive no more than 50% credit for the assignment until it is fixed and resubmitted (and then there will be a penalty for being late).
Tests - There will be two tests during the course of the semester. The first is an in-class midterm exam and the second is the final. Each will count for 15% of your course grade. See the lectures page for the date of the first test. The final will be held during the normally scheduled time for your section. For the 10:30am class this is 8:30am on 12/18. For the 11:30am class it is at 6:30pm on 12/13. If you are going to miss a test I MUST be told in advance, even if it is a phone call 5 minutes before class. More advanced notice is preferable. If you have to take a makeup odds are good that it will be a bit harder than the original exam.
Quizzes - There will also be six quizzes given during the course of the semester. These quizzes serve many purposes in this class. First, it gives both you and I information about how well you are understanding the material in the class. Second, and more importantly, they will help you prepare for the test and the final. The quizzes will be short, 10 minutes, however, they will have questions that are similar in format to what you can expect to see on the tests (only fewer of them). They will be given promptly at the beginning of class to help insure that you arrive on time, and they will often cover material from the reading for that day to help provide you with incentive to actually do the readings. Note that these quizzes do not have a huge impact upon your grade. Because one of them is dropped, there will be no make-up quizzes.
Class Participation - I like you to participate in class. Discussion is typically far more entertaining than listening to me drone on for 50 minutes. It can also be more educational as the people most inclined to understand your confusion on certain points will be your piers. This part of the grade will actually come from 3 sources. The first is attendance. You can't participate in class if you aren't there. The second is verbal participation during class. I do keep track of this over the course of the semester and it does matter. Third, you can send me links to interesting things that you might happen to find on the web. If I think that they are significant enough, I will link them to the course web page. Each link you send me is worth participation points.
Extra Credit - During the course of the semester there will be a number of opportunities for you to receive extra credit. Most of the assignments should include extensions that you can do for extra points. In addition, I typically place extra credit problems on the quizzes and tests. You can also receive extra credit for displaying that you are thinking about the course material in a substantive way outside of class. This includes sending me links to sites that you think might be either helpful or just of interest to your fellow students.