Credit Course Schedules

Engineering - Spring 2022

In Person
Classes meet in person on campus; specific days/times/location
Online - Asynchronous
Classes meet fully online; no specific days/times/locations
Online - Synchronous (Zoom)
Classes meet via Zoom or other resource; specific days/times
Hybrid - Online Asynchronous & Online Synchronous (Zoom)
A portion of the classes meet synchronous via Zoom or other resource and a portion is asynchronous online; there will be some specific days/times
Hybrid - Online & In-person
A portion of the classes meet in person on campus and a portion is asynchronous or synchronous online; there will be some specific days/times/locations
Hybrid - Online Asynchronous & In Person
Classes meet in both asynchronous online and in-person modes; specific meeting times and locations for in-person portions of classes are listed with each course
Hybrid - Online Synchronous (Zoom) & In Person
Classes meet in both synchronous online (Zoom) and in-person modes; specific meeting times and locations are listed with each course
Engineering Internship I — 3348
ENR 2010 – 3 credits
Timothy R. Griffin

Students receive on-the-job experience consisting of 135 hours of supervised activity in a local business or industry. Students work in conjunction with a faculty mentor and a supervisor at the job site. All guidelines in the original college internship policy will be followed. Prerequisite: completion of at least 12 college-level credits with a GPA of 2.0 or better. J occasionally; C occasionally. Master Course Syllabus

Jamestown Campus
Jan 18 – May 13 TBD
Mechanics-Dynamics — 3349
ENR 2560 – 3 credits
Timothy W. Piazza

Students will study time derivatives of vectors using Cartesian, cylindrical, and path coordinates. The dynamics of a particle from a single frame of reference including rectilinear and central force problems are stressed. Other topics are conservation of energy and momentum as applied to dynamic problems. Rigid body rotations and Coriolis acceleration are studied in detail. Prerequisite: ENR 2550; Prerequisite/Corequisite: MAT 2680. J spring. Master Course Syllabus

Jamestown Campus
Sheldon Center 135
Jan 19 – May 13 Mon, Wed 2:40 pm – 3:55 pm
Strength of Materials — 3350
ENR 2580 – 4 credits
Timothy R. Griffin

Students will be able to explain the concepts of stress and strain and the relationships between them in the solution of problems such as beams, columns, torsional members, connections and combined loading (Mohrs circle). Stress concentrations, thin-walled pressure vessels, and beam deflections are covered. Laboratory experiences include standard tests to determine properties of various materials when subjected to normal stress, bending, shear impact, and torsion loading. Hardness tests and non-destructive testing procedures are used. Prerequisites: MAT 2650 and ENR 2550. Master Course Syllabus

Jamestown Campus
Manufacturing Technology Institute - Jamestown 125
Jan 19 – May 13 Mon, Wed 8:30 am – 9:45 am
Strength of Materials LAB — 3351
ENR 2580 – 0 credits
John W. Hale

Students will be able to explain the concepts of stress and strain and the relationships between them in the solution of problems such as beams, columns, torsional members, connections and combined loading (Mohrs circle). Stress concentrations, thin-walled pressure vessels, and beam deflections are covered. Laboratory experiences include standard tests to determine properties of various materials when subjected to normal stress, bending, shear impact, and torsion loading. Hardness tests and non-destructive testing procedures are used. Prerequisites: MAT 2650 and ENR 2550. Master Course Syllabus

Jamestown Campus
Fees: $20
Manufacturing Technology Institute - Jamestown 121A
Jan 20 – May 13 Thu 6:30 pm – 9:15 pm
Analysis/Linear Elec Circuits — 3352
ENR 2740 – 3 credits
Timothy W. Piazza

Students will gain expertise in the techniques of elementary circuit analysis. DC resistive circuits are first analyzed using Ohms and Kirchhoffs laws, voltage and current division, resistance and source combinations, and superposition. Basic techniques are expanded to include dependent sources, mesh analysis, nodal analysis, Thevenins and Nortons theorems, and the maximum power transfer theorem. Sinusoidal, exponential, and damped sinusoidal forcing functions are then introduced along with inductance and capacitance. LaPlace transforms are used to obtain complete solutions for first and second order RL, RC, and RLC circuits. Prerequisite: MAT 1250 or Prerequisite/Corequisite: MAT 1720. J fall. Master Course Syllabus

Jamestown Campus
Manufacturing Technology Institute - Jamestown 113
Jan 19 – May 13 Tue, Thu 10:00 am – 11:15 am