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Lesson Opener : How does a plane fly? How does a perfume spray work? Why does a cricket ball curve?

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Presentation on theme: "Lesson Opener : How does a plane fly? How does a perfume spray work? Why does a cricket ball curve?"— Presentation transcript:

1 Lesson Opener : How does a plane fly? How does a perfume spray work? Why does a cricket ball curve?

2 Daniel Bernoulli (1700 – 1782) Derivation and Applications of the Bernoulli Principal NIS Taldykorgan Grade 11 Physics Lesson Objective: 1.To apply Bernoulli’s equation to solve problems 2.To describe Bernoulli’s principle and to derive his formula in terms of conservation of energy 3.To present applications of the Bernoulli principle

3 Bernoulli’s Principle As the speed of a fluid goes up, its pressure goes down! The pressure in a fast moving stream of fluid is less than the pressure in a slower stream Fast stream = low air pressure Slow stream = High air pressure

4 v small v large p large p small A1A1 A2A2 v1v1 v2v2 A1A1 v1v1 Low speed Low KE High pressure high speed high KE low pressure Low speed Low KE High pressure

5 Equation of Continuity

6 Bernoulli’s Equation in terms of Fluid Energy “for any point along a flow tube or streamline” P + ½  v 2 +  g h = constant Each term has the dimensions of energy / volume or energy density. ½  v 2 KE of bulk motion of fluid  g h GPE for location of fluid P pressure energy density arising from internal forces within moving fluid (similar to energy stored in a spring) Transformation of SI Units to Joule/meter 3 = energy/volume: P [Pa] = [N m -2 ] = [N m m -3 ] = [J m -3 ] ½  v 2 [kg m -3 m 2 s -2 ] = [kg m -1 s -2 ] = [N m m -3 ] = [J m -3 ]  g h [kg m -3 m s -2 m] = [kg m s -2 m m -3 ] = [N m m -3 ] = [J m -3 ]

7 Deriving Bernoulli’s starting with the law of continuity

8 Bernoulli’s Equation For steady flow, the velocity, pressure, and elevation of an incompressible and nonviscous fluid are related by an equation discovered by Daniel Bernoulli (1700–1782).

9 Deriving Bernoulli’s equation as Conservation of Energy

10 Bernoulli’s equation:

11 BERNOULLI’S EQUATION In a moving fluid p+½  V 2 = constant everywhere An increase in velocity of the fluid results in a decrease in pressure Bernoulli’s equation is an extension of F=ma for fluid flows and aerodynamics Constant

12 HOW DOES A WING GENERATE LIFT? An imbalance of pressure over the top and bottom surfaces of the wing. –If the pressure above is lower than the pressure on bottom surface, lift is generated

13 Airplane Wing is curved on top

14 HOW DOES A CURVED WING GENERATE LIFT? Flow velocity over the top of wing is faster than over bottom surface –Air over wing is squashed to smaller cross- sectional area –Mass continuity  AV=constant, velocity must increase

15 high speed low pressure force What happens when two ships or trucks pass alongside each other?

16 velocity increased pressure decreased low pressure high pressure (p atm ) VENTURI EFFECT

17 artery External forces causes artery to collapse Flow speeds up at constriction Pressure is lower Internal force acting on artery wall is reduced Arteriosclerosis and vascular flutter

18 References and links: Bernoulli Activity: http://mitchellscience.com/bernoulli_principle_discussion _nomathhttp://mitchellscience.com/bernoulli_principle_discussion _nomath Steve Spangler and Hydrogen Hexafluoride: http://www.youtube.com/watch?v=GRLOgmmz_EU Phet Colorado Fluid Pressure and Flow simulation: http://phet.colorado.edu/en/simulation/fluid-pressure- and-flowhttp://phet.colorado.edu/en/simulation/fluid-pressure- and-flow Types of Fluids: http://mechteacher.com/fluid/#ixzz2fcgGwLbq http://mechteacher.com/fluid/#ixzz2fcgGwLbq Flowing Fluids,Laminar Flow and stream lines: http://www.youtube.com/watch?v=_aWdeXby7CA

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