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Course Criteria
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1.00 Credits
Weekly seminar series with NMHU faculty and visiting scientist and engineers addressing current science, math, and engineering topics and issues. Multidisciplinary approaches to engineering problems also will be highlighted. To enhance participation and viewpoints, alternate weekly seminars will be shared with the biweekly NMHU Science Seminar.
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3.00 Credits
A lecture/laboratory course concerning the application of laws of Newtonian mechanics to stationary systems and rigid bodies. Topics included are: fundamental concepts, review of vector operations, types of forces, systems of forces and moments, objects and structures in equilibrium, centroids and center of mass, moments of inertia, friction, internal forces and moments. Prerequisite: Math 252 and Phys 291.
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3.00 Credits
This course is an introductory lecture/laboratory course concerned with the application of a high level computer language to solve engineering and scientific problems. Topics to be covered will include the following: data types, operators, and functions, control flow, programming methods, arrays, introduction to numerical methods, and external device/port programming. Prerequisites: A grade of "C" or better in Math 211, Engr 115 or permissionof instructor.
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2.00 Credits
Engineering design, descriptive geometry, pictorial sketching, computer-aided graphics, and their application in the solution of engineering problems. Prerequisites: Math 343, Engr 237.
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3.00 Credits
Almost all disciplines of engineering must be familiar with the basic concepts of circuit analysis and design. Topics covered in this course are: circuit principles, network theorems, natural and forced responses of first and second linear order. Computer modeling using SPICE and lab design experiments support this class. Prerequisites: Math 252 and Phys 292
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3.00 Credits
This is a lecture/simulation/laboratory course covering the physics of semiconductors and electronic elements such as diodes, bipolar transistor, field effect transistor and transistor amplifiers. PSPICE software is used for analysis and characterization of electrical and electronic circuits. Hardware lab experiments serve to reinforce knowledge, verify simulation results and gain some hands-on experience. Prerequisite: Engr 320.
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3.00 Credits
A continuation of Engr 331 covering differential, multistage and operational amplifiers, frequency response and feedback. An introduction to analog integrated circuits is also given. Prerequisite: Engr 242 and Engr 331.
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3.00 Credits
A lecture/laboratory course analyzing the response of static systems composed of various materials to the application of loading forces. Topics included are: tension, compression, and shear; axially loaded members, torsion of circular shafts, shear and bending moments in beams, stresses in beams, deflection of beams, columns and analysis of stress and strain. Prerequisite: Engr 237.
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3.00 Credits
This course introduces students to algorithm development using pseudo languages, basic program structures, program design techniques, storage and manipulation of basic data structures like arrays, stacks, queues, sorting and searching and string processing. Prerequisites: A grade of "C" or betterin Engr 245 or permission of instructor
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3.00 Credits
This course will introduce the principles and practice of digital logic design and simulation. Contemporary computer simulation and hardware design tools such as hardware description language (VHDL) and Field Programmable Gate Array (FPGA) will be used. Basics of Boolean algebra, combinatorial and sequential circuits will be covered. Prerequisite: Math 211 or permission of instructor.
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