Normal power producing cycles and refrigerators. Suitable gas mixes and damp air applications. (Course Profile) 240 Introduction to Characteristics and Vibrations Requirement: Physics 140 & 141, and preceded or accompanied by (Mathematics 216 or Mathematics 156.) Minimum grade of "C" required for enforced prerequisites. (4 credits) Vector description of force, position, speed and velocity in fixed and moving recommendation frames.
Energy and momentum principles. Euler's equations. Solution Can Be Seen Here of inertia residential or commercial properties. The simple oscillator and its applications. (Course Profile) 250 Design and Production I Requirement: (Mathematics 116 or Math 121 or MATH 156) and (ENGR 101 or EECS 183 or ENGR 151). Minimum grade of "C" needed for enforced requirement. (4 credits)Fundamentals of mechanical design: visual thinking, engineering drawing and device anatomy.
Use of computer systems in different stages of style and production. Exposure to CAD systems and standard maker store strategies. Design/manufacturing task. Three hours lecture and two hours lab. (Course Profile) 290 RISE 2 Research, Development, Service and Entrepreneurship Requirement: permission of trainer. (1-3 credits)Specific or group project work where trainee(s) must apply mechanical engineering principles to research, innovation, service or entrepreneurship tasks.
(Course Profile) 305 Intro to Finite Elements in Mechanical Engineering Requirement: MECHENG 211, Math 216. (3 credits) Intro to theory and practice of the finite aspect method. One-dimensional, two-dimensional and three dimensional aspects is studied, including structural components. Main fields of applications are strength of materials (deformation and tension analysis) and dynamics and vibrations.
2 hour lecture and one hour lab. (Course Profile) 311 Strength of Products Requirement: MECHENG 211, Mathematics 216. (3 credits) Energy techniques; buckling of columns, including approximate techniques; bending of beams of unbalanced cross-section; shear center and torsion of thin-walled areas; membrane tensions in axisymmetric shells; elastic-plastic bending and torsion; axisymmetric flexing of circular plates.
Minimum grade of "C" needed for enforced prerequisites. (3 credits) Fluid statics; conservation of mass, momentum and energy in repaired and moving control volumes; consistent and unstable Bernoulli's equation; differential analysis of fluid flow; dimensional analysis and similitude; laminar and turbulent flow; border layers; lift and drag; applications to mechanical, biological, ecological, and micro-fluidic systems (Course Profile) 335 Heat Transfer Requirement: MECHENG 320.