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ACADEMIC CATALOG
- Catalog 2023-2024
- General Information
- Letter from the District President
- Board of Trustees
- Administration
- History of the College
- Mission, Vision and Values
- Equal Educational Opportunity
- Accreditation
- 2023-2024 Academic Calendar
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- Navarro College Foundation, Inc.
- Cook Education Center
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- Academic Policies and Information
- Degree and Certificate Programs
- Course Descriptions
- Previous Catalogs
Engineering
ENGR 1201 Introduction to Engineering
1 lec/2 Lab (2 Cr.) An introduction to the engineering profession with emphasis on technical communication and team-based engineering design.
Credits
Distribution
ENGROffered
SpringENGR 2301 Engineering Mechanics-Statics
3 lec (3 Cr.) This is a three credit hour course. Topics include basic theory of engineering
mechanics, using calculus, involving the description of forces, moments, and couples
acting on stationary engineering structures; equilibrium in two and three dimensions;
free-body diagrams; friction; centroids; centers of gravity; and moments of inertia.
Pre-requisites: PHYS 2425 University Physics I
Concurrent enrollment in or previous completion of MATH 2414 Calculus II
Credits
Distribution
ENGROffered
FallENGR 2302 Engineering Mechanics-Dynamics
3 lec (3 Cr.) This is a three credit hour course. Topics include Basic theory of engineering
mechanics, using calculus, involving the motion of particles, rigid bodies, and systems
of particles; Newton’s Laws; work and energy relationships; principles of impulse
and momentum; application of kinetics and kinematics to the solution of engineering
problems.
Pre-requisites: ENGR 2301 Engineering Mechanics – Statics
Credits
Distribution
ENGROffered
SpringENGR 2305 Electrical Circuits I
3 lec (3 Cr.) This course is a study of the principles of electrical circuits and
systems. Basic circuit elements (resistance, inductance, mutual inductance, capacitance,
independent and dependent controlled voltage, and current sources); topology of electrical
networks; Kirchhoff ’s laws; node and mesh analysis; DC circuit analysis; operational
amplifiers; transient and sinusoidal steady-state analysis; AC circuit analysis; first-
and second-order circuits; Bode plots; and use of computer simulation software to
solve circuit problems.
Pre-requisites: PHYS 2425 University Physics I; MATH 2414 Calculus II
Pre-requisite or Co-requisite: MATH 2320 Differential Equations