Engineering - Electrical, AS
This is a standard first course in calculus. Topics include limits continuity; definition of the derivative of a function and techniques of differentiation; applications of the derivative to maximizing or minimizing a function; the chain rule mean value theorem and rate of change problems; curve sketching; the Fundamental Theorem of Calculus; definite and indefinite integration of algebraic trigonometric and transcendental functions with an application to calculation of areas. (Fall Spring Summer)
MATH 2412Â or equivalent with a grade of "C" or better
Fundamental principles of chemistry for engineering majors; topics include measurements fundamental properties of matter states of matter chemical reactions acid-base concepts chemical stoichiometry periodicity of elemental properties atomic structure chemical bonding molecular structure solutions properties of gases phase-diagrams introduction to chemical equilibrium chemical thermodynamics electrochemistry and an introduction to descriptive inorganic chemistry and organic chemistry. Additionally basic laboratory experiments supporting theoretical principles presented in the lecture portion of the course; introduction of the scientific method experimental design chemical instrumentation data collection and analysis and preparation of laboratory reports.
MATH 1314Â or equivalent or above
Additional course fee(s) required.
An introduction to the engineering profession with emphasis on technical communication and team-based engineering design. (Fall)
MATH 1314Â or equivalent with a grade of "C" or better
 This is a required course for the THECB Engineering Compact Agreement.
Intensive study of and practice in writing processes from invention and researching to drafting revising and editing both individually and collaboratively. Emphasis on effective rhetorical choices including audience purpose arrangement and style. Focus on writing the academic essay as a vehicle for learning communicating and critical analysis.
English Composition I is a prerequisite for all 2000-level literature courses.
This is a standard second course in calculus. Topics include differentiation and integration of transcendental functions; parametric equations and polar coordinates; techniques of integration; sequences and series; improper integrals. (Fall Spring Summer)
MATH 2413Â with a grade of "C" or better
This is a calculus-based physics course intended for students majoring in computer science engineering mathematics physics or related fields of study. Topics include 1-D motion 2-D motion rotational motion Newton's laws energy momentum equilibrium gravity oscillatory motion waves and heat. (Fall)
MATH 2413Â
Additional course fee(s) required.
Intensive study of and practice in professional settings. Focus on the types of documents necessary to make decisions and take action on the job such as proposals reports instructions policies and procedures email messages letters and descriptions of products and services. Practice individual and collaborative processes involved in the creation of ethical and efficient documents.
An analysis of the economy as a whole including measurement and determination of Aggregate Demand and Aggregate Supply national income inflation and unemployment. Other topics include international trade economic growth business cycles and fiscal policy and monetary policy.
Choose one course from the following:
- HIST 1301 - United States History I 3 credit hours.
- HIST 1302 - United States History II 3 credit hours.
- HIST 2301 - Texas History 3 credit hours.
- HIST 2381 - African American History I 3 credit hours.
- HIST 2382 - African American History II 3 credit hours.
Choose one course from the following:
- HIST 1301 - United States History I 3 credit hours.
- HIST 1302 - United States History II 3 credit hours.
- HIST 2301 - Texas History 3 credit hours.
- HIST 2381 - African American History I 3 credit hours.
- HIST 2382 - African American History II 3 credit hours.
This is a third course in calculus with advanced topics in calculus including vectors and vector-valued functions partial differentiation Lagrange multipliers multiple integrals and Jacobians; application of the line integral including Green's Theorem the Divergence Theorem and Stokes' Theorem. (Fall Spring)
MATH 2414Â with a grade of "C" or better
Introduces and provides models for application of the concepts of vector algebra. Topics include finite dimensional vector spaces and their geometric significance; representing and solving systems of linear equations using multiple methods including Gaussian elimination and matrix inversion; matrices; determinants; linear transformations; quadratic forms; eigenvalues and eigenvector; and applications in science and engineering. (Fall)
MATH 2414Â with a grade of "C" or better
This is a calculus-based physics course intended for students majoring in computer science engineering mathematics physics or related fields of study. Topics include charge electric fields magnetic fields electric potential current capacitance resistance electromotive force simple DC and AC circuits induction electromagnetic waves propagation of light and geometric optics. (Spring)
PHYS 2425 (completed) and MATH 2414 (completed or concurrent).
Additional course fee(s) required.
This course introduces the fundamental concepts of structured programming and provides a comprehensive introduction to programming for computer science and technology majors. Topics include software development methodology data types control structures functions arrays and the mechanics of running testing and debugging. This course assumes computer literacy.
Ordinary differential equations including linear equations systems of equations equations with variable coefficients existence and uniqueness of solutions series solutions singular points transform methods and boundary value problems; application of differential equations to real-world problems. (Spring)
MATH 2414Â with a grade of "C" or betterÂ
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. (Spring)
MATH 2414; PHYS 2425 Â
Origin and development of the U.S. Constitution structure and powers of the national government including the legislative executive and judicial branches federalism political participation the national election process public policy civil liberties and civil rights.
Origin and development of the Texas Constitution structure and powers of state and local government federalism and inter-governmental relations political participation the election process public policy and the political culture of Texas.
Total Program Hours
59
PROGRAM DESCRIPTION:
Engineering combines creativeness, ingenuity and the knowledge of Physics and Mathematics to solve complex problems. The foundation of the NTCC Engineering Program consists of comprehensive Mathematics and Physics courses which help engineering students gain mastery of the required tools need for Engineering. Engineers use technology and creativity to improve the world around us. Engineers are involved in every type of industry and in the design and manufacturing of products that we use every day. Our annual Engineering Roundtable event provides a unique opportunity for both NTCC engineering students and area high school students to interact with practicing engineering in our local industries.