|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
3.00 Credits
3 Credits English,COM,For Lang, & PHI English Comp and Lit Students study and interpret representative novels of the 20th century and the present era. Prerequisite: ENG 102 or by advisement.
-
3.00 Credits
3 Credits English,COM,For Lang, & PHI English Comp and Lit Students study the literature of various American cultural minorities?Jewish, African American, Native American, Latin American, and Asian American. Prerequisite: ENG 102 or by advisement.
-
3.00 Credits
3 Credits English,COM,For Lang, & PHI English Comp and Lit The student will have the opportunity to do independent research and study in the area of English. The work will be done with the guidance of an instructor from the Department of English and Philosophy with written approval of the Department Chairperson. Open only for sophomores for not more than two semesters.
-
1.00 Credits
1 Credit Math,Science,ENGR, & TECH Engineering Science Students are introduced to the language, concepts, and philosophies of engineering, drawing, sketching, spatial analysis, and basic CAD/CAM. Topics include theoretical orthographic projection and its practical applications, as well as pictorial representation. 3 hrs. lab.
-
1.00 Credits
1 Credit Math,Science,ENGR, & TECH Engineering Science Computer and CAD/CAM applications are used to make graphical presentations that consist of spatial analysis of points, lines, planes, and solids. Students also study vector analysis as applied to engineering mechanics. 3 hrs. lab. Prerequisite: ENR 103.
-
3.00 Credits
3 Credits Math,Science,ENGR, & TECH Engineering Science The availability, characteristics, and physical properties of various materials commonly used in industry-ferrous and nonferrous metals and nonmetals (polymers and ceramics), such as wood, plastics, glass, rubber, and masonry-are covered in this course. Students also review current developments in the field of materials. The laboratory covers destructive and nondestructive testing of materials, including tension, compression, torsion, and deflection. Laboratory work includes micro- and macro-examinations of materials and tests of ductility, hardness, impact, stress, and strain by various methods. 2 hrs. lect.; 3 hrs. lab. Prerequisite: CHE 101 or CHE 103.
-
3.00 Credits
3 Credits Math,Science,ENGR, & TECH Engineering Science Topics in this course include element and interconnection laws, network theorems, circuit equations and methods of solution (branch equations, Kirchoff's Law, node and mesh equations, and Norton and Thevenin equivalents), transient and steady state responses, frequency response, resonance phenomena, and power. Basic solid-state electronic circuits are introduced (two-port and three-port elements). 3 hrs. lect. This course includes a 1 hr. lab (ENR 218) which is required for computer engineering and electrical engineering majors and optional for all others. Corequisites: PHY 110 and MAT 108 or by advisement.
-
4.00 Credits
4 Credits Math,Science,ENGR, & TECH Engineering Science Students study electric circuits using diodes, zeners, junction transistors, and field-effect transistors. Students also gain a working knowledge of the following topics: operational amplifiers, frequency response and filters, transistors and integrated circuits, nonlinear electronic circuits, electronic amplifiers, feed-back control systems, signal processing and communication systems, digital logic, and digital logic systems. This course is for students majoring in electrical or computer engineering. Students familiarize themselves in the laboratory with the function of the oscilloscope and other measurement devices, as well as circuit components, diode circuits, transistor circuits, and operational amplifier circuits. 3 hrs. lect.; 2 hrs. lab. Prerequisite: ENR 208.
-
3.00 Credits
3 Credits Math,Science,ENGR, & TECH Engineering Science Both the classical and vector approaches in the application of physics to practical engineering analysis are featured in this course. Students learn the principles of static equilibrium of rigid bodies. Topics include force systems, couples, first- and second-moments, centroids, friction, and free body diagrams. Application areas include trusses, frames, machines, cables, and other structures. 3 hrs. lect. Prerequisites: PHY 109 and MAT 108.
-
3.00 Credits
3 Credits Math,Science,ENGR, & TECH Engineering Science The application of physics to the analysis of moving particles, systems of particles, and rigid bodies is covered in this course. Students learn the principles of kinematics and kinetics using classical Newtonian laws as applied to practical engineering analysis. Topics include force systems, inertia, acceleration, work-and-energy, and the relationship of impulse and momentum. 3 hrs. lect. Prerequisite: ENR 215.
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|