Be able to perform a stress/strain analysis on a variety of components and structures commonly used in machinery design.

Be able to apply uncertainty principles to stress/strain calculations.

Be able to incorporate static and dynamic failure criteria in solving engineering problems.

Outcome No. 1: A good understanding of mathematics, science, and engineering, and an ability to apply this knowledge in engineering practice. The lecture material builds on the knowledge gained in other courses providing the student with the ability to analyze and design a variety of components and structures used in machinery design.

Outcome No. 4: An ability to identify, formulate, and solve engineering problems. The knowledge will allow the students to identify the problems and formulate a logical solution to solve the problem

Outcome No. 5: An understanding of professional and ethical responsibility. Students are introduced to the concepts of safety and product liability.

Outcome No. 10: All graduates will have an ability to use the techniques, skills, and modern tools necessary for entry-level practice in their area of concentration. Students learn how to apply uncertainty principles to stress/strain calculations; and learn about static and dynamic failure criteria.

Outcome No. 11: All graduates will be able to analyze and design a system, component, or process to meet desired needs in their area of concentration. Students develop and demonstrate their abilities by analyzing and designing machinery components.