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Course Criteria
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3.00 Credits
Vector statics operations and applications; particle equilibrium, force system resultants, equilibrium of a rigid body. Structural analysis; trusses, solution techniques. Center of gravity and centroid. Internal forces. Friction. Moments of inertia. Elasticity. Fall and spring semesters. Lecture 3 hours. Pre- or Corequisites: MATH 1920 or department head approval.
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1.00 Credits
Laboratory experiments to support and enhance the topics listed from Engineering 103. Introduction to professional aspects of engineering, including ethics and observation of engineering practice. Written and oral presentations included. Fall and spring semesters. Laboratory 3 hours. Corequisite: Engineering 103.
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3.00 Credits
Introduction to the design process in engineering including: historical perspective, problem definition, idea generation, project planning and management, and simple decision-making. Design exercises culminate in a group designed prototype. Three dimensional thinking and the importance of modeling and visualization to the engineering design process discussed. Geometric modeling, solid modeling, and basic ideas of visualization practiced. Use of 3D modeling and prototyping. Written and oral reports included. Fall and spring semesters. Lecture 1 hour, laboratory 3 hours. Pre- or Corequisite: Mathematics 145.
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2.00 Credits
Introduction to the design process in engineering including: historical perspective, problem definition, idea generation, project planning and management, and simple decision-making. Design exercises culminate in a group designed prototype. Three and two dimensional thinking and the importance of modeling and visualization to the engineering design process discussed. Use of 3D and 2D modeling and prototyping. Written and oral reports included. Fall and spring semesters. Lecture 1 hour, laboratory 2 hours. Pre- or Corequisite: ENGR 1011 and MATH 1720 or department head approval. Laboratory/studio course fee will be assessed. Supplementary course fee assessed.
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1.00 - 9.00 Credits
Individual or group projects. On demand.
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1.00 - 4.00 Credits
Introductory treatment of a fundamental area in engineering, varying from term to term. On demand. Prerequisite: Approval of Instructor and Dean.
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3.00 Credits
The history, esthetics, functional beauty, and behavior of architectural structures will be presented along with the economic, environmental, social, political, and scientific factors which were effected and affected by them. On demand. Lecture 3 hours. Prerequisite: high school algebra and geometry.
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3.00 Credits
The emergence and solution of pollution problems. Discussion of fundamental ideas and policies contributing to pollution problems. Pollution is examined from industrial, political, and social perspectives. Included are role-playing experiences designed to illustrate the effects of various policies on the quality of life in a simulated community. Fall semester. Lecture 3 hours.
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3.00 Credits
Introduction to probability and statistical methods with direct application to engineering problem solving. Discrete and continuous distributions, numerical measures, elementary sampling, point estimation, interval estimation, design of experiments, and hypothesis testing. Fall, spring and summer semesters. Lecture 3 hours. Prerequisites: Mathematics 161/162.
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3.00 Credits
Introduction to probability and statistical methods with direct application to engineering problem solving. Discrete and continuous distributions, numerical measures, elementary sampling, point estimation, interval estimation, design of experiments, and hypothesis testing. Fall, spring and summer semesters. Lecture 3 hours. Prerequisites: MATH 1920 or department head approval. Supplementary course fee assessed.
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