COURSE SYLLABUS© We believe in respect for the individual, in personal integrity and in education as a means of improving the human condition. LAST PREPARED/UPDATED ON: Enter date INSTRUCTOR DETAILS INSTRUCTOR: e-mail: phone: office room: Enter first and last name Enter your …@webster.edu e-mail address Optional Enter if available COURSE DETAILS TERM: COURSE TITLE: PREREQUISITES: CLASS LIMIT: LAB FEE: TEXTBOOK / REQUIRED READING MATERIALS: Enter term your course is offered in BUSN 3750/ add section Quantitative Methods ACCT 2025, ECON 2020, BUSN 2750 25 None Enter the textbook(s) and other required or supplemental course materials. List particularly every title requiring a bookstore order. For help choosing a textbook, including receiving gratis academic inspection copies, contact the librarian Nicole Platzer at nicole.platzer@webster.ac.at . If there is a standard textbook for your course (info in your contract), please enter that title. If you would like to change this textbook, you must get the approval from your department head. COURSE DESCRIPTION This course introduces the student to the basics of decision making and common errors in decision making. It will also familiarize the student with a number of decision-making techniques that can be used on realworld problems as well as in other courses in the program. COURSE OBJECTIVES / LEARNING OUTCOMES Outcome Students understand the importance of quantitative analysis and its role in decisionmaking process. Students understand basic probability functions and distributions. Expectation Students understand problem-solving and decision making process through structured and unstructured problems, causes of poor decision making, and role of randomness and variation. Students can compute event probabilities and determine underlying probability distribution that matches the data. Students will know the role and impact of uncertainties and probability in the decision making process. Palais Wenkheim, Praterstrasse 23, 1020 Vienna, Austria - www.webster.ac.at -1- Students can develop pay-off tables and decision trees, and make appropriate decisions with or without probability information. Students can utilize PERT analysis to plan, manage, and evaluate a large project. Students can develop mathematical models for forecasting demand using multiple techniques. Students can formulate LP models, find optimal solutions, interpret output and perform sensitivity analysis. Students know both the SQC and non-SQC approaches to the management of quality. Students understands the basic issues involved in inventory management and can compute EOQ needed for inventory decisions. Students can determine the characteristics of a waiting line and or be able to design a waiting line to match desired performance level. Students understand the importance of quantitative analysis and its role in decisionmaking process. Students understand basic probability functions and distributions. Students can develop pay-off tables and decision trees, and make appropriate decisions with or without probability information. Students will know the concept of expected value approach, be able to use decision trees in developing solutions to simple problem, and the impact of utility in decision making process where outcomes and payoff are partly impacted by variables outside decision maker’s control. Students can develop a PERT diagram, determine the critical path, crash activity to shorten project completion time and estimate the probability of completing project on time. Students will understand the basic mathematical models for forecasting demand and impact of trend and seasonality on forecasts. Students will be able to formulate both minimization and maximization problems for Liner Programming solution and will be able to interpret the results of the computer run. Students can develop an SQC chart and use it to evaluate the quality performance of an ongoing production process. Students will understand the role of inventory in competitive strategy and be able to determine an appropriate inventory policy to support a specific strategy. The student will also be able to use EOQ to assist in determining the specifics of a particular inventory policy. Students will know the characteristics of waiting line and how quantitative methods can be a valuable tool in service sector where queuing and waiting time are of prime importance in high-contact situation. Students understand problem-solving and decision making process through structured and unstructured problems, causes of poor decision making, and role of randomness and variation. Students can compute event probabilities and determine underlying probability distribution that matches the data. Students will know the role and impact of uncertainties and probability in the decision making process. Students will know the concept of expected value approach, be able to use decision trees in developing solutions to simple problem, and the impact of utility in decision making process Palais Wenkheim, Praterstrasse 23, 1020 Vienna, Austria - www.webster.ac.at -2- Students can utilize PERT analysis to plan, manage, and evaluate a large project. Students can develop mathematical models for forecasting demand using multiple techniques. Students can formulate LP models, find optimal solutions, interpret output and perform sensitivity analysis. Students know both the SQC and non-SQC approaches to the management of quality. Students understands the basic issues involved in inventory management and can compute EOQ needed for inventory decisions Students can determine the characteristics of a waiting line and or be able to design a waiting line to match desired performance level. where outcomes and payoff are partly impacted by variables outside decision maker’s control. Students can develop a PERT diagram, determine the critical path, crash activity to shorten project completion time and estimate the probability of completing project on time. Students will understand the basic mathematical models for forecasting demand and impact of trend and seasonality on forecasts. Students will be able to formulate both minimization and maximization problems for Liner Programming solution and will be able to interpret the results of the computer run. Students can develop an SQC chart and use it to evaluate the quality performance of an ongoing production process. Students will understand the role of inventory in competitive strategy and be able to determine an appropriate inventory policy to support a specific strategy. The student will also be able to use EOQ to assist in determining the specifics of a particular inventory policy. Students will know the characteristics of waiting line and how quantitative methods can be a valuable tool in service sector where queuing and waiting time are of prime importance in high-contact situation. GRADE BREAKDOWN (Note: instructors can determine the components of evaluations, below is just an example). GRADING SCALE: MIDTERM EXAM: FINAL EXAM: QUIZZES/ASSIGNMENTS: CLASS PROJECT: PARTCIPATION: A: 93-100, A-: 90-92 (Superior work), B+: 87-89, B: 83-86, B-: 80-82 (Good work), C+: 77-79, C: 73-76, C-: 70-72 (Satisfactory work), D+: 67-69, D: 63-66 (Sufficient work), F: <63 (Insufficient work) Enter percentage of grade Enter percentage of grade Enter percentage of grade Enter percentage of grade Enter percentage of grade COURSE POLICIES / ADDITIONAL INFORMATION Palais Wenkheim, Praterstrasse 23, 1020 Vienna, Austria - www.webster.ac.at -3- List policies that are specific to your course, such as your policy on acceptance of and/or penalties for late work, an explanation of how you enforce the attendance policy (for example, whether lateness counts as a partial absence, or points taken off for each absence or partial absence, etc.), elucidation of what constitutes cheating, etc. or, use this section for any additional information that pertains to your course. WEEKLY SCHEDULE Week 1 (enter date/s) Week 2 (enter date/s) Week 3 (enter date/s) Week 4 (enter date/s) Week 5 (enter date/s) Week 6 (enter date/s) Week 7 (enter date/s) Week 8 (enter date/s) Enter weekly topic and assignments Enter weekly topic and assignments Enter weekly topic and assignments Enter weekly topic and assignments Enter weekly topic and assignments Enter weekly topic and assignments Enter weekly topic and assignments Enter weekly topic and assignments Palais Wenkheim, Praterstrasse 23, 1020 Vienna, Austria - www.webster.ac.at -4- UNIVERSITY POLICIES Students are required to inform themselves of WUV academic policies. A full list of these policies is available on the WUV website: http://webster.ac.at/academic-policies Academic Honesty & Cheating: The University is committed to high standards of academic honesty. Students will be held responsible for violations of these standards. A special Honor Code that the Vienna Student Council has developed applies to students and faculty. Any student found cheating on any part of the course work (homework assignment, term paper, quiz, exam, etc.) will automatically be given an “F” for the course. Any student found to be helping another student to cheat will likewise be given an “F” for the course. In each case, the student will also be put on disciplinary probation for the remainder of her or his stay at Webster. If the student is found to have engaged in cheating a second time, s/he will be automatically expelled from the University. Faculty members are held responsible for upholding and enforcing the Honor Code. Academic Work: Students are required to save digital or hard-copy files of any and all materials they use for any assignment in any WUV course. Upon the instructor's request they have to provide complete text documentation for any sources they have used. In every case, should the assignment or project be shared outside the academic department, the student's name and all identifying information about that student will be redacted from the assignment or project. Contact Hours: Graduate courses are only offered in an 8- week term format and meet 1-time per week for 4 hours. Graduate Mid-term and final exams sessions are scheduled in 2-hour block sessions in addition to weekly class meeting times (36 total contact hours). Please see the Graduate Course Schedule/Timetable on the website for specific exam dates/times: http://webster.ac.at/graduate-courseofferings-and-schedules Undergraduate courses are offered either in term format, which meets for two 2-hour sessions per week for 8 consecutive weeks (32 contact hours), or a 15-week semester format, which meets for two 1.5 – hour sessions for 8 consecutive weeks followed by a break week (no classes are held) and then for another 7 consecutive weeks. The total number of contact hours for undergraduate semester courses is thus 45. Attendance: Students are expected to attend all class sessions of this course. In the case of unavoidable absence, the student must contact the instructor and provide written documentation. The student is subject to appropriate academic penalty for incomplete or unacceptable makeup work, or for excessive or unexcused absences. Excused absences—based on submitted documentation—must not exceed: Four class sessions when the course meets twice a week; Two class sessions when the course meets only once a week. Should the number of excused absences be higher, it is the student's responsibility to withdraw from the course. In the case of unexcused absences, amounting to: Four class sessions when the course meets twice a week; Two class sessions when the course meets only once a week; the instructor must lower the student's grade by one letter grade and inform the student of the action. Should the number of unexcused absences be higher, the instructor must assign the grade of F and inform the student of the action. Note: In the case of a mixture of excused and unexcused absences, the instructor’s response must be based on the dominant category. Student Conduct: Since every student is entitled to full participation in class or exams without interruption, disruption of class by inconsiderate behavior is not acceptable. Students are expected to treat the instructor and other students with dignity and respect, especially in cases where a diversity of opinion arises. Students who engage in disruptive behavior are subject to disciplinary action, including removal from the course. All and any use of a cell phone is strictly prohibited during class. Students using a cell phone may be sent out of the classroom, which may result in an unexcused absence. If a calculator is needed in any class, the student must bring a calculator—and not a cell phone. It is up to the individual instructor to rule on the use of laptops or I-pads. Instructors have the right to prohibit students’ use of such electronic devices. Palais Wenkheim, Praterstrasse 23, 1020 Vienna, Austria - www.webster.ac.at -5-