ENGR 1201 - Introduction to Engineering (2-2-0) | |
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Introduction to engineering as a discipline and profession. Includes instruction in the application of mathematical and scientific principles to the solution of practical problems. A broad range of problems will be considered in order to introduce the student to various engineering majors and careers. | |

Student Accident Insurance Fee: $1.00 Skills: G Prerequisites: One full year of high school physics or equivalent and mathematics through trigonometry. Course Type: T | |

ENGR 2301 - Vector Mechanics -- Statics (3-3-1) | |

Calculus-based study of the composition and resolution of forces. Vector algebra, force systems, freebody diagrams; equilibrium of rigid bodies and structures; centroids, distributed loads, friction; moment of inertia. | |

Course Fee: $50.00 Student Accident Insurance Fee: $1.00 Skills: G Prerequisites: PHYS 2425 or equivalent. Corequisites: MATH 2415 (or previous credit). Course Type: T | |

ENGR 2302 - Vector Mechanics -- Dynamics (3-3-1) | |

Calculus-based study of the dynamics of rigid bodies. Includes force-mass-acceleration methods, work and energy, and impulse-momentum computations. Emphasis on two- and three-dimensional kinematics and dynamics, applied to a broad class of engineering problems. Offered in Spring. | |

Course Fee: $50.00 Student Accident Insurance Fee: $1.00 Skills: G Prerequisites: ENGR 2301 or equivalent and MATH 2415 or equivalent. Course Type: T | |

ENGR 2332 - Mechanics of Materials (3-3-1) | |

Stresses and deformations in solids; stress-strain relationships and torsions; beams, shafts and columns; elastic deflections in beams; combined loading and combined stresses. Emphasis on application to engineering problems. Offered in Fall. | |

Course Fee: $50.00 Student Accident Insurance Fee: $1.00 Skills: G Prerequisites: ENGR 2301 or equivalent and MATH 2415 or equivalent. Course Type: T | |

ENGR 2405 - Electrical Circuits I (4-3-4) | |

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. Laboratory experiments supporting theoretical principles presented in ENGR 2305 involving DC and AC circuit theory, network theorems, time, and frequency domain circuit analysis. Introduction to principles and operation of basic laboratory equipment; laboratory report preparation. | |

Course Fee: $50.00 Student Accident Insurance Fee: $1.00 Skills: G Prerequisites: MATH 2414 and PHYS 2426. Corequisites: MATH 2420 (or previous credit). Course Type: T | |