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Download 10.7 Buoyancy and Archimedes Principle 10.8 Fluids in Motion
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Transcript
10.7 Buoyancy and Archimedes Principle 10.8 Fluids in Motion; Flow Rate and the Equation of Continuity 10.9 Bernoulli’s Equation 10.10 Application of Bernoulli’s Principle 10.11 Viscosity 10.12 Flow in Tubes: Poiseuille’s Equation Objectives: 1. Students will explain the principles associated to Archimedes Principle. 2. Students will relate the various flow rates to forces and motion. 3. Students will explain how Bernoulli’s equation is applied. 4. Students will relate viscosity to flow in tubes. Homework: 22-44 even pp. 282-283 Formula Search –Find all formulas state the units and purpose for making calculations. Vocabulary to Know: Buoyancy Buoyant Force Pressure Archimede’s Principle Apparent weight Density Volume Hydrometer Fluid Dynamics Hydrodynamics Streamline Laminar Flow Turbulent Flow Viscosity Flow Rate Equation of Continuity Bernoulli’s Principle Torricelli’s Principle Dynamic Lift Venturi Tube Poiseuille’s Equation 10.7 Buoyancy: 1. What is a buoyant force? 2. How does a buoyant force occur? 3. State Archimede’s Principle. 4. How is displacement related to Archimede’s Principle? 5. How is Archimede’s Principle derived from Newton’s Laws? 6. Explain apparent weight. 7. How does a hydrometer work? 8. How does Archimede’s Principle relate to geology? 10.8 Fluids in Motion: 1. Compare and contrast the two main types of fluid flow. 2. How is viscosity related to fluid flow? 3. What would occur if there was no viscosity? 4. Explain the equation of continuity. 5.What is meant by the volume rate of flow? 6. How can flow rate help us better understand the circulatory system? 10.9 Bernoulli’s Equation: 1. Define Bernoulli’s Principle. 2. How did Bernoulli develop his equation? 10.10 Application of Bernoulli’s Principle: 1. How is Torricelli’s Theorem related to Bernoulli’s Principle? 2. Pick two applications of Bernoulli’s Principle and explain them in your own words. 3. What is a Venturi tube and give an example of an application. 10.11 Viscosity: 1. How is viscosity expressed? 2. How is a viscosity gradient created? 10.12 Poiseuille’s Equation 1. Explain and give an example of Poiseuille’s Equation
