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ENGR 303: Engineering Economics
3.00 Credits
Philadelphia University
This course is designed to provide the engineering student with the decision-making skills necessary to evaluate the monetary consequences of the products, processes and projects that engineers design. Decisions must balance economics, performance, aesthetics and resources. As the capital outlays may be significant and affect the productive potential of a firm over the long term, it is important to understand the time value of money. The course emphasizes calculations of present values, future worth, internal rates of return and replacement analysis. In addition to the specific financial concepts covered, the student will construct computer spreadsheets to do sensitivity analysis and generate graphs to enhance presentation skills. Prerequisite: ENGR-305, MATH-112
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ENGR 303 - Engineering Economics
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ENGR 304: Operations Research I
3.00 Credits
Philadelphia University
Philosophy and techniques of operations research. Emphasis on elementary model building and concepts of optimization. Structure of problem solving; linear programming, transportation and assignment algorithms; game theory; network analysis, branch and bound theory. Prerequisite: MATH-112, ENGR-305
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ENGR 304 - Operations Research I
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ENGR 305: Engineering Statistics I
3.00 Credits
Philadelphia University
Fundamentals of probability and distribution theory with application to various branches of engineering; basic probability theory, discrete random variables, continuous random variables, independent random variables, covariance and correlation and linear combinations of random variables. Statistical decision theory including significance testing and estimation, confidence intervals, design and perform tests of hypotheses on population means, standard deviations and proportions. Prerequisite: grade of "C" or better in MATH-112
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ENGR 305 - Engineering Statistics I
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ENGR 307: Engineering Statistics II
3.00 Credits
Philadelphia University
This course is a continuation of EN505 Engineering Statistics, and it is required for the BSISE and the BSE with minor in ISE. Application of statistical techniques to industrial problems; relationships between experimental measurements using regression and correlation theory and analysis of variance models; design of experiments with one and more than one levels; emphasis on inherent variability of production processes; control chart techniques and the use of exponential and Weibull models in reliability analysis; statistical process control. Prerequisite: ENGR 305
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ENGR 307 - Engineering Statistics II
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ENGR 311: Fluid Mechanics
3.00 Credits
Philadelphia University
The fundamentals of fluid mechanics. Topics include fluid statics, control-volume analysis, the Navier-Stokes equations, similitude, viscous, inviscous and turbulent flows and boundary layers. Prerequisite: ENGR-218, PHYS-203 and PHYS-203L
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ENGR 311 - Fluid Mechanics
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ENGR 322: Fundamentals of Electrical Engineering I
3.00 Credits
Philadelphia University
Analysis of circuits; transient and steady state phenomena; general analysis techniques. Fundamentals of direct and alternating circuits, transformers rotating machinery, electrical and electronic control, and electrical energy. Prerequisite: PHYS-203, PHYS 203L
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ENGR 322 - Fundamentals of Electrical Engineering I
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ENGR 341: Organic Process Chemistry
3.00 Credits
Philadelphia University
This course will bring together tools, techniques and technologies that help chemists in research and production to develop more eco-friendly and efficient uses of current and emerging processes for sustainable production. The course will emphasize engineering practices that reduce or eliminate the use or generation of hazardous substances in the design, manufacture and application of chemical products, including specialty and fine chemicals. Prerequisite: CHEM-104 and CHEM 104L
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ENGR 341 - Organic Process Chemistry
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ENGR 403: Fundamentals of Electrical Engineering II
3.00 Credits
Philadelphia University
Fundamentals of electronic circuit design starting with a brief survey of semiconductor devices including diodes and bipolar and field effect transistors. The course continues with op-amp applications, including instrumentation and filter design. The use of digital logic is also explored. Throughout the course, practical considerations of circuit design and construction are covered. Prerequisite: ENGR-322
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ENGR 403 - Fundamentals of Electrical Engineering II
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ENGR 499 1-5-4: Senior Design Project:Engineering
3.00 Credits
Philadelphia University
(writing intensive) Application of engineering principles to solve a real-world problem. Student works as member of a team assigned to a problem in a manufacturing, processing, service, or government organization. The capstone senior design project will consist of a project that builds on engineering, business, ethics and social issues. Requires a professional written and oral report and this course will serve as the program's major writing intensive course. Prerequisites: Completion of at least 90 credits, senior level and WRTG-21X
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ENGR 499 1-5-4 - Senior Design Project:Engineering
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FASHDES 211: Garment Structures
3.00 Credits
Philadelphia University
This is the initial course in the fashion design technical studio sequence. Students also produce a sample book of various construction methods. From existing patterns, students produce garments and have the opportunity to redesign them through imaginative use of construction details. Note: A minimum grade of "C" will be required in order tocontinue in the design studio sequence. Admission into the Fashion Design Program. Fashion Industry majors need approval from FIM program coordinator.
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FASHDES 211 - Garment Structures
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