Fluids II (Fluids in motion)

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hys0 Lectures 6-7 Fluids II (Fluids in motion) Key points: Bernoulli s Equation oiseuille s Law Ref: 0-8,9,0,,. age

0-8 Fluids in Motion; Flow Rate and the Equation of Continuity If the flow of a fluid is smooth, it is called streamline or laminar flow (a). Above a certain speed, the flow becomes turbulent (b). Turbulent flow has eddies; the viscosity of the fluid is much greater when eddies are present. (a) (b)

Flow Rate and the Equation of Continuity We will deal with laminar flow. The mass flow rate is the mass that passes a given point per unit time. The flow rates at any two points must be equal, as long as no fluid is being added or taken away. m m This gives us the equation of continuity: Since (in = out, m ) m then

Fire nozzles If the density doesn t change typical for liquids this simplifies to A v = A v. Where the pipe is wider, the flow is slower. A v = A v For incompressible fluids

Example: Blood flow. In humans, blood flows from the heart into the aorta, from which it passes into the major arteries. These branch into the small arteries (arterioles), which in turn branch into myriads of tiny capillaries. The blood returns to the heart via the veins. The radius of the aorta is about. cm, and the blood passing through it has a speed of about 40 cm/s. A typical capillary has a radius of about 4 x 0-4 cm, and blood flows through it at a speed of about 5 x 0-4 m/s. Estimate the number of capillaries that are in the body. A v NA v NA N N is the totalcross sectional area of A v A v 4. 0 0 R v r v 6 0. 4 50 R r 4 v v 70 9 all the capillaries

Bernoulli s Equation m m In time interval t, m moves in and m moves out. Continuity requires m m m m Av t Av t Work done by external pressures: m W A vt Av t Ideally, when there is no drag, W p should be equal to the gain in mechanical energy: E mgy mv mgy mv gy gy OR : v v gy gy v gy v constant v This is known as Bernoulli s equation, which is a consequence of conservation of energy.

Bernoulli s principle: When the height y doesn t change much, Bernoulli s equation becomes OR : v v v constant Lift on an airplane wing is due to the different air speeds and pressures on the two surfaces of the wing. Faster v Where the velocity of a fluid is high, the pressure is low, and where the velocity is low, the pressure is high. Slower v Demo

Example: Flow and pressure in a hot-water heating system. Water circulates throughout a house in a hot-water heating system. If the water is pumped at a speed of 0.5 m/s through a 4.0-cm-diameter pipe in the basement under a pressure of 3.0 atm, what will be the flow speed and pressure in a.6-cm-diameter pipe on the second floor 5.0 m above? Assume the pipes do not divide into branches. [Solution] v A 0. 04 3. 0atm,v 0. 5m / s, A 0. 006m, y 0.06 6 5.30 m, y h 5.0 v A 0. 50. 006 va v. 9 m / 6 A 5. 30 m A s gy 3.00 5 v v v gy gy v 5 0000.5.9 0009.8 5.0.50 a gy v gy v 0

Applications of Bernoulli s rinciple: Torricelli, Airplanes, Baseballs, TIA Using Bernoulli s principle, we find that the speed of fluid coming from a spigot on an open tank is: or This is called Torricelli s theorem.

Applications of Bernoulli s rinciple A ball s path will curve due to its spin, which results in the air speeds on the two sides of the ball not being equal; therefore there is a pressure difference. Free kick a curving soccer ball. Video The air travels faster relative to the center of the ball where the periphery of the ball is moving in the same direction as the airflow.

Applications of Bernoulli s rinciple: Torricelli, Airplanes, Baseballs, TIA A person with constricted arteries may experience a temporary lack of blood to the brain (TIA) as blood speeds up to get past the constriction, thereby reducing the pressure.

Applications of Bernoulli s rinciple: Torricelli, Airplanes, Baseballs, TIA A venturi meter can be used to measure fluid flow by measuring pressure differences.

Viscosity Real fluids have some internal friction, called viscosity. The viscosity can be measured; it is found from the relation

Flow in Tubes; oiseuille s Equation, Blood Flow The rate of flow in a fluid in a round tube depends on the viscosity of the fluid, the pressure difference, and the dimensions of the tube. The volume flow rate is proportional to the pressure difference, inversely proportional to the length of the tube and to the pressure difference, and proportional to the fourth power of the radius of the tube. Q R 4 8 l

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