Students taking CMSC 441 should have mastered the material covered in the following courses: CMSC 201 & 202 (Computer Science I & II), CMSC 203 (Discrete Structures), CMSC 341 (Data Structures) and MATH 152 (Calculus and Analytic Geometry II). The material in Appendix B, Chapter 10 and Chapter 12 of the textbook (covering sets, elementary data structures and binary search trees) should be familiar. So should sorting algorithms (e.g., bubble sort, insertion sort, selection sort, merge sort, heap sort, quicksort). Some knowledge of probability and counting (Appendix C of the textbook) is also expected. In addition, proficiency in the implementation of the elementary data structures (e.g. stacks, queues, linked lists, heaps, balanced binary trees and graphs) in C/C++ or Java is assumed.
In this course students will
Final grades will be based upon homework assignments (36% total), quizzes (36% total) and the final exam (28%). The syllabus lists 13 homework assignments and 6 quizzes. However, if a homework assignment or quiz is canceled and not made up (e.g., because school is closed for snow or hurricane), the proportion of your grade from homework, quizzes and the final exam will remain the same. That is, homework will still count for 36% of your grade and quizzes 36% of your grade (each homework or quiz will have greater weight). In any case, the lowest homework grade will be dropped.
The final letter grades are based on the standard formula:
0 <= F < 60, 60 <= D < 70, 70 <= C < 80, 80 <= B < 90, 90 <= A <= 100
Depending upon the distribution of grades in the class, there may be adjustments in the students' favor, but under no circumstances will the letter grades be lower than in the standard formula. Grades will not be "curved" in the sense that the percentages of A's, B's and C's are not fixed. As a guideline, a student receiving an "A" should be able to solve the homework problems with facility; design and analyze new algorithms in written exams; and demonstrate an understanding of the impact of theoretical analysis in practical programming settings.
Grades are given for work done during the semester; incomplete grades will only be given for medical illness or other such dire circumstances.
Students are expected to attend all lectures and are responsible for all material covered in the lecture as well as those in the assigned reading. However, this subject cannot be learned simply by listening to the lectures and reading the book. In order to master the material, you must spend time outside the classroom, to think, to work out the homework and understand the solutions.
Assignments are due at the beginning of lecture. Late homework will not be accepted --- this is to allow for timely grading and discussion of the homework solutions. Reasonable provisions will be made for students who are delayed by traffic, who are on travel, ... Late homework will be rejected from students who have obviously been working on homework instead of attending lecture. Partial credit will be given for serious attempts on the homework problems. So you should simply turn in whatever you have accomplished by the beginning of class. If you cannot attend lecture when homework is due, for some honorable reason, you must make arrangements to submit your homework directly to the instructor. Do not ask another student to submit your homework for you. This is to reduce the temptation to cheat (see below).
Students are allowed, and even encouraged, to collaborate on homework problems. Collaborators and reference materials must be acknowledged at the top of each homework assignment. However, homework solutions must be written up independently. A student who is looking at someone else's solution or notes, whether in print or in electronic form, while writing up his or her own solution is considered to be cheating. Cases of academic dishonesty will be dealt with severely.