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Course Criteria
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6.00 - 10.00 Credits
Masters Thesis
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3.00 Credits
Prereq: MATH 106. For students in architecture and construction management. Fundamental concepts, equilibrium of force systems, analysis of simple frames and trusses. Centroid and moments of inertia and friction.
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3.00 Credits
Prereq: MATH 107, PHYS 211. Action of forces on engineering structures and machines. Force systems, static equilibrium of frames and machines. Friction, center of gravity, moment of inertia, vector algebra.
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3.00 Credits
Prereq: Good standing in the University Honors Program or by invitation; MATH 107 and PHYS 211. Bodies in equilibrium. Vector algebra, equivalent force systems, distributed loads, and center of gravity. Analysis of trusses, frames, and machines. Friction, wedges, crews, and belts. Area moments of inertia.
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2.00 Credits
Prereq: PHYS 211. Parallel: MATH 208. For electrical engineering majors. Force actions in static coplanar systems with applications to engineering structures and machines. Resultants, moments, couples, equivalent force systems, vector algebra. Static equilibrium conditions and equations.
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3.00 Credits
Prereq: ENGM 220 or 223. For students in architecture and construction management. Stress and strain analysis in elastic materials. Use of properties of materials in the analysis and design of welded and riveted connections, statically determinate and indeterminate flexure members, columns. Combined stresses, axial, eccentric and torsional loading. Observations of laboratory tests for axially loaded specimens. Introduction to shear and moment diagrams.
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3.00 Credits
Prereq: ENGM 223, MATH 208. Concept of stress and strain considering axial, torsional, and bending forces. Shear and moments. Introduction to combined stresses and column theory.
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3.00 Credits
Prereq: Good standing in the University Honors Program or by invitation; ENGM 223 or 223H; MATH 208. Introduction to the mechanics of elastic bodies. Concepts of stress and strain. Extension, bending, and torsion. Shear and moment diagrams. Principal stresses. Deflection of statically determinate and indeterminate beams. Buckling of columns. Special advanced topics.
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2.00 Credits
Prereq: ENGM 250. For electrical engineering majors. Application of Newton's laws to engineering problems involving coplanar kinematics and kinetics of particles. Work, energy, impulse, and momentum. Conservative systems. Periodic motion.
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3.00 Credits
Prereq: ENGM 223, MATH 208. Force action related to displacement, velocity, and acceleration of rigid bodies. Kinematics of plane motion, kinetics of translation and rotation. Mass moment of inertia, vibration, work, energy and power, impulse and momentum.
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