Engr 213

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Studies properties of structure materials. Analyzes stress and deformation in axially-loaded members, in circular shafts and beams and in statically indeterminate systems containing these components. Calculate average normal, shear, and bearing stresses on sections and connectors. Relate allowable stress, material strength and safety factor in component design. Calculate stresses for axial, torsion, beam bending, and combined loading on simple structural elements.

Engr 213

An introduction of scales, plan reading, engineering graphics and computer aided designing. Weekly seminars presented by practicing engineers to help students gain a better understanding of various engineering fields and the attributes required to be a successful engineer. Introduction to the engineering profession and engineering disciplines; introduction to the engineering design process and team projects. Introduction to effective problem-solving techniques using various engineering applications with an emphasis on accuracy. Definition of fundamental concepts and components, including operational amplifiers. Steady-state ac and dc analysis using the basic laws of circuits. Principles of electrical measurements. Single-phase ac power. Computer applications. Laws of motion, work and energy, impulse and momentum, relative motion. Material types and the relationships between material structure and material properties. Material defects, failure, corrosion and degradation, strengthening mechanisms, testing, and joining operations. PR: CHM

Describe tension tests and stress-strain diagrams, engr 213. Economic analysis of engineering proposals; time value of money; evaluation and selection of projects; replacement and retention decisions; uncertainty and risk; inflation; cost estimation; depreciation; and benefit cost analysis.

Upon successful completion of this course, the student will have satisfactorily accomplished the goals and objectives listed in this course content guide. Course content guides are developed by collegewide Subject Area Curriculum Committees and approved by management. Emphasis is on problem-solving using the three basic tools of mechanics, namely: a. Students develop problem-solving skills during working sessions under the guidance of instructor. Problems are assigned on a weekly basis for practice. Practical applications are made throughout the course by introducing many typical engineering design problems involving beams, shafts, columns and pressure vessels. Student progress is measured by performance on homework and on examinations covering appropriate types of problems.

Topics covered include line types, drawing sheet layouts, sketching, orthographic projections, section views, isometric drawing, dimensioning, tolerances, and threads and fasteners. This course uses theory, laboratory investigation, and circuit simulation software to introduce basic electrical and circuit analysis principles. Emphasis is placed on direct current DC circuits containing voltage and current sources and resistor networks in series, parallel, and series-parallel configurations. This course also introduces the concepts of electric and magnetic fields in the context of capacitors and inductors and their transient responses in DC circuits. A section on basic alternating current AC resistive circuits with sinusoidal sources is included. In this course, both simulation and implementation of DC circuits will be conducted. First Year Seminar, topics vary. This course covers the basic behavior and processing of engineering materials, including metals, ceramics, plastics, and alloys.

Engr 213

Youmin Zhang. Associate Professor. Concordia University. E-mail: ymzhang encs. Office Hours:. Tuesdays and Thursdays pm -

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Currently it's winter term. Learn more ยป. Ching-Hao Yu. Draw shear and bending moment diagrams, and write beam equilibrium equations. Audit available. Analyzes stress and deformation in axially-loaded members, in circular shafts and beams and in statically indeterminate systems containing these components. Calculate stresses for axial, torsion, beam bending, and combined loading on simple structural elements. Laws of motion, work and energy, impulse and momentum, relative motion. Student progress is measured by performance on homework and on examinations covering appropriate types of problems. College of Engineering. Ranked top 10 in the nation OSU Ecampus earned a top 10 ranking for the 10th year in a row on a list of America's best online bachelor's programs. Mathematical methods for analyzing and solving a range of engineering problems, including linear algebra, vector and multivariate calculus, complex variables calculus, and Fourier analysis. Credit Class Schedule.

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Laws of motion, work and energy, impulse and momentum, relative motion. Identify the mechanical properties of materials used in engineering mechanics analyses. Skip to main content. Students utilize the engineering design process to complete a comprehensive engineering project that addresses a real-world problem with realistic constraints in a collaborative environment. Analyzes stress and deformation in axially-loaded members, in circular shafts and beams and in statically indeterminate systems containing these components. Establish equations for stress coordinate transformation, principal stresses, and maximum shear stress. Catalog Navigation. Computer applications. A supervised experience in which the student works for a company to gain practical experience in a students major. Objectives: 4. Currently it's winter term.

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