Develop a thorough understanding of the statics and mechanics principles that are of paramount importance for learners in the engineering and technical programs. Mechanics is the branch of physical science that deals with state of rest or motion under the action of forces. Mechanics is the foundation for most engineering sciences and an indispensable prerequisite to most engineering or technical courses. In this course, you will develop a thorough understanding of the statics and mechanics principles that are of paramount importance for students in the engineering and technical programs. You will then apply these mechanics principles in various assignments and projects.
Complete various projects utilizing intermediate and advanced Inventor skills. Upon completion the student will take the Certified Inventor Exam to gain industry credentials.
Introduces the 3-dimensional modeling software Inventor to create solid part models, sheet metal and assemblies. The learner will create parts and assemblies as well as related 2D working drawings, bills of materials and animations. Learners will practice their skills on a variety of projects with various levels of difficulty.
Explores use of computer software, especially spreadsheets, to perform engineering and design calculations learned in the prerequisite courses. The learner will use software applications currently being used in the engineering field and explore the interaction between various calculation and spreadsheet software and CAD applications.
Introduction to best practices for the efficient and cost-effective design, development and production of products utilizing CAD systems. The course introduces current industry standards in key design processes including project management, team building and collaboration, creativity and innovation, and re-engineering. The learner will utilize industry methods of product design and incorporate design considerations for specific manufacturing processes to complete multiple product design projects, culminating in a final project.
Explores the fundamentals of geometric dimensioning and tolerancing (GD &T) using the ASME Y14.5-2009 standard. Dimensioning and tolerancing terms, symbols, definitions, and concepts are covered. The course provides the understanding required to apply GD & T to mechanical drawings and designs and incorporates this foundation into part inspection.
Introduces the fundamentals of machine design and power transmission. The different types and capabilities of power transmission components (chain and belt drives, coupling, clutches, brakes, gear reducers, bearings, and electric motors) are introduced. The student will be capable of proper selection of commercially available power transmission components into systems using the principles of power, torque, and speed.
Incorporates the concepts learned in Statics and applies them to 3-dimensional applications. The learner will master the basic concepts of fatigue strength, the use of stress concentration factors, de-rating factors and factors of safety in order to compare design loads to material properties of objects in their actual working environment. The learner will understand all aspects of shaft design and will be able to properly account for all considerations when designing these common machine components.
Introduces the student to the fundamentals of manufacturing processes used in the manufacture and design of products. Metal casting, powder metallurgy, bulk forming (forging, extrusion), sheet metal forming (rolling, drawing, bending), and joining processes are introduced. The course focuses on the materials, properties, capabilities, equipment, and design considerations for each process.
Examines precision measurement tools and explores material removal processes, testing techniques and finishing methods as well as rapid prototyping and 3D printing. The learner will consider how these processes influence design decisions and influence part and product design.
In this course, you will be involved in the in-depth examination of manufacturing materials related to the ultimate design decision involved in part and product design. You will learn the principles and theory of the methodology of material selection, the properties of materials, the structure of materials and specific materials and their function in product application.
Provides the learner with a significant off-campus experiential learning opportunity to make connections between the theory and practice of academic study and the practical application of that study in a professional work environment. Gain relevant engineering experience and professional connections.
Introduces the techniques used in the design and analysis of mechanisms with application to machine design. Graphical and analytical methods are presented to study the motion characteristics (displacement, velocity and acceleration) of four-bar linkages, slider-cranks, cams, gears and other special mechanisms. The use of CAD and spreadsheets is emphasized.
Prepares learners to perform basic nursing skills under the supervision of a nurse for job entry as a nursing assistant or a home health aide (HHA) in health care agencies. Face-to-face and hybrid classroom, campus lab and clinical instruction are offered at various nursing homes and hospitals throughout the district. Students need to submit an application and complete background check.
Introduces the learner to basic SolidWorks commands to produce 3-dimentsional parts, assemblies and engineering drawings. The learner will master beginner level commands and have a thorough understanding of the basic operation of the software.
Introduces the learner to intermediate SolidWorks commands to produce 3- dimensional parts, assemblies and engineering drawings. The learner will utilize and practice their existing beginner level commands and skills while mastering intermediate level skills with an emphasis on mechanical engineering drafting and design. Upon completion the Learner will have an opportunity to take the SolidWorks Certified Associate Exam (CSWA) to obtain a highly recognized credential known worldwide.
Complete various projects utilizing intermediate and advanced SolidWorks skills. Upon completion the student will take the CSWA or Certified SolidWorks Exam to gain industry credentials.
Examines how forces affect machine members and structural elements. The learner will calculate stress and strain, analyze connections and evaluate beams and columns. The learner will use these calculations to determine if a given design will perform or fail.
Expands basic knowledge and skill development of mechanical drawing. Emphasis is placed on fits and tolerances, geometric and positional dimensioning and tolerancing, assembly and detail drawings and parts lists.
Develops an in-depth understanding of production systems control and planning. The learner will acquire the skills necessary for the design and creation of engineering drawings of production tools and workholder devices such as jigs and fixtures.
The Nursing Assistant Instructor Train-the-Trainer Program is designed to equip healthcare professionals with the knowledge, skills, and competencies needed to effectively teach and train nursing assistant students. This comprehensive program focuses on adult learning principles, curriculum development, lesson planning, teaching strategies, and student performance evaluation. Participants will also gain expertise in supervising clinical practice and ensuring compliance with state and federal regulations governing nursing assistant education.
Learner must have valid Wisconsin RN license and two years work experience (one year in long-term, home health, or rehabilitation care). This course will meet the state requirement for nurses who wish to become nursing assistant instructors.
