Builds upon the foundation laid in Fire Fighting Principles as well as adds new concepts such as vehicle extrication, flammable liquids fire, technical rescue and incident command. This course will meet the requirements of NFPA 1001 for Firefighter 2 level.
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.
Provides the components of building construction related to firefighter and life safety. The elements of construction and design of structures are shown to be key factors when inspecting buildings, preplanning fire operations, and operating at emergencies.
The Candidate Physical Ability Test (CPAT) - Full Session includes the orientation, two (2) timed course practices and a CPAT test. During the orientation session, we will explain the testing process and how the equipment works. You will have the chance to ask questions and try the testing equipment. The pass rate of those who attend the orientations is higher than for those who do not, so it is highly recommended that you attend at least one of these orientations. The two practice tests are the same and we attempt to run the practice test under actual testing conditions. If the test is run under actual testing conditions and you successfully complete the test this is considered a PASS and you will not need to attend any further testing.
The Candidate Physical Ability Test (CPAT) - Test Out is for a ONE-TIME try to challenge the CPAT course. Acknowledgment and waiver of CPAT orientation and/or conditioning period and/or timed practice runs will need to submitted.
This 40 hour course prepares the participant to perform fire fighting supervisor/manager functions at a minimum nationally recognized level. The targeted audience is individuals who have completed the training required to meet the Fire Officer 1 JPRs of NFPA 1021, Standard for Fire Fighter Professional Qualifications, Chapter 4, and desire, or are required to increase their knowledge and skills to progress to the Fire Officer II Level. This course is designed to provide the Fire Officer II candidate with the information needed to meet the job performance requirements (JPRs) in National Fire Protection Association (NFPA) 1021, Standard for Fire Officer Professional Qualifications, Chapter 5.
This 96-hour course prepares the participant to be able to perform fire fighting functions at the nationally recognized minimum levels under direct supervision. The targeted audience is individuals who desire to become Wisconsin Certified Fire Fighter I based on the requirements set by SPS 330.08, Employment standards, Wisconsin Department of Safety and Professional Services. This course is designed to provide the Fire Fighter I candidate with the information needed to meet the job performance requirements (JPRs) defined in NFPA 1001, Standard for Fire Fighter Professional Qualifications, Current Edition, Chapters 5.2 through 5.5. The participant must also complete the Hazardous Materials Operation level course in order to meet the remainder of the NFPA Fire Fighter I JPR requirements.
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.
This 40-hour course prepares the participant to perform fire instruction duties at a minimum nationally recognized level. (This course was formerly known as Fire Instructor I). This course is designed to provide the Emergency Services Instructor I candidate with the information needed to meet the job performance requirements (JPRs) in National Fire Protection Association (NFPA) 1041, Standard for Fire Service Instructor Professional Qualifications, Chapter 4.
Emphasizes basic fire behavior, techniques used to control structural and related fire emergencies and life safety practices. Learners perform all practical evolutions necessary to control and extinguish fires and otherwise meet all requirements for Firefighter 1 certification with the state of Wisconsin.
This 42-hour course prepares the participant to perform firefighting functions at an advanced nationally recognized level under general supervision. The targeted audience is individuals who have completed the training required to meet the Fire Fighter I JPRs in NFPA 1001, and desire to increase their knowledge and skills base to the next level. This course is designed to provide the Fire Fighter II candidate with the information needed to meet the job performance requirements (JPRs) in NFPA 1001, Standard for Fire Fighter Professional Qualifications, Current Edition.
Prerequisite Courses: 47503720 (Cert FF1) and 47503780 (Haz Mat Operations)
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.
Prepares the participant to be able to perform the minimum hazardous material incident operations associated with firefighting functions at an advanced nationally recognized level under general supervision. The targeted audience is individuals who have completed the training required to meet the Fire Fighter I JPRs in NFPA 1010, and desire to increase their knowledge and skills base to the next level. This course is designed to provide the Fire Fighter II candidate with the information needed to meet the operational level competencies for the hazardous material first responder as referenced in the job performance requirements (JPRs) in National Fire Protection Association (NFPA) 1010, Standard for Fire Fighter Professional Qualifications, Chapter 4, 4-1.1. It is based on the National Fire Academy (NFA) Initial Response to Hazardous Materials Incidents: Basic Concepts and Initial Response to Hazardous Materials Incidents: Concepts Implementation curriculums.
Prepares the participant to perform the minimum hazardous material incident operations associated with firefighting functions. Meets operational level competencies referenced in the JPRs in NFPA 1001 - Standard for Fire Fighter Professional Qualifications
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.
