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Course Criteria
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3.00 Credits
Stresses, strains and deformations in elastic behavior of axial force, torsion and bending members, and design applications. Statically indeterminate problems. Strain energy. Column stability. Prerequisite: ENGR 30, ENGR 45, MATH 45. Graded: Graded Student. Units: 3.0
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2.00 Credits
Application of statistical methods to the analysis of engineering and physical systems. Data collection, characteristics of distributions, probability, uses of normal distribution, regression analysis, and decision-making under uncertainty. Prerequisite: MATH 31, may be taken concurrently. Graded: Graded Student. Units: 2.0
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3.00 Credits
Probability and random signals and their application in engineering systems. Topics include the random sample space model, concept of axiomatic probability, conditional probability, discrete and continuous random variables, probability density and distribution functions, functions and statistics of random variables, random vectors multivariate distributions, and correlation and covariance of random vectors. Applications include estimation, risk, signal detection, random signals and noise in linear systems, reliability, and estimation. Prerequisite: EEE 180; may be taken concurrently. Graded: Graded Student. Units: 3.0
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3.00 Credits
Study of thermodynamic principles and their applications to engineering problems. Includes a study of the first and second laws, the properties of pure substances and ideal gas, gas/vapor mixtures, and an introduction to thermodynamic cycles. Prerequisite: MATH 32, PHYS 11A, CHEM 1A. Graded: Graded Student. Units: 3.0
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3.00 Credits
Lectures and problems in the fundamental principles of incompressible and compressible fluid flow. Prerequisite: ENGR 110. Graded: Graded Student. Units: 3.0
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2.00 Credits
Evaluation of economic consequences of engineering design proposals on projects. Emphasis on marginal or incremental economic analysis using Net Present Value, Annual Equivalence, Rate of Return and Benefit-Cost methods including multiple alternatives, taxes, uncertainty, inflation, organizational constraints and money market factors. Prerequisite: ENGR 17, ENGR 30, or instructor permission. Graded: Graded Student. Units: 2.0
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3.00 Credits
Writing of mesh and node equations. DC and transient circuit analysis by linear differential equation techniques. Application of laws and theorems of Kirchoff, Ohm, Thevenin, Norton and maximum power transfer. Sinusoidal analysis using phasors, average power. Prerequisite: PHYS 11C, MATH 45; either the math or physics may be taken concurrently, but not both. Graded: Graded Student. Units: 3.0
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3.00 Credits
Basic principles of materials behavior pertaining to electronics applications. Topics include electrical conductivity, bonding, crystal structures, optical properties, magnetic properties, energy transfer, and the fundamentals of some simple electronic devices. Lecture 3 hours. Prerequisite: CHEM 1A, PHYS 11A, MATH 45. Graded: Graded Student. Units: 3.0
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3.00 Credits
Mathematical methods for the solution of advanced engineering problems. Vector analysis, tensors and matrix algebra, complex variable techniques. The applications of these methods to practical engineering problems are demonstrated. Prerequisite: MATH 45. Graded: Graded Student. Units: 3.0
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3.00 Credits
Mathematical methods for the solution of advanced engineering problems. Solutions of ordinary and partial differential equations, Fourier series and Laplace transforms and operational calculus. The applications of these methods to practical engineering problems are demonstrated. Prerequisite: MATH 45. Graded: Graded Student. Units: 3.0
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