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<br />I <br />I <br />II <br />I <br />I <br />il <br />I <br />I <br />II <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br /> <br />LESSON 2 <br />BASIC HYDRAULICS - PARTICIPANT WORKBOOK <br /> <br />LESSON 2 <br /> <br />BASIC HYDRAULICS <br /> <br />OVERVIEW: <br /> <br />Method of Instruction: <br /> <br />Lecture, Demonstration, and Workshop <br /> <br />Length: <br /> <br />Lesson <br /> <br />30 minutes <br /> <br />Resources: Lesson Outline <br />Slides <br />Demonstration Flume <br />Software Demonstration <br /> <br />OBJECTIVES <br /> <br />BASIC HYDRAULICS <br />LESSON 2 <br /> <br />CULVERT DESIGN COURSE <br /> <br />. APPLY BASIC HYDRAULIC EQUATIONS <br />. APPLY MANNING'S EQUATION TO <br />EVALUATE TAILWATER CONDITIONS <br />. RECOGNIZE COMPUTER PROGRAMS <br />AVAILABLE AND THEIR APPLICATION <br />IN CULVERT DESIGN <br /> <br /> <br />2.0a Title <br /> <br />2.0b Objectives <br /> <br />OBJECTIVES: <br /> <br />Upon completion of the course, participants will be able to: <br /> <br />1. Apply basic hydraulic equations and theory essential to culvert <br />design. <br />2. Apply Manning's Equation to evaluate tailwater conditions <br />downstream of a culvert. <br />3. Recognize the various computer programs available to assist <br />with open channel flow analysis and their application in culvert <br />design. <br /> <br />2-1 <br />