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Chapter 3.2 Notes Rate in Fluids. Rates in fluid systems describe the motion of liquids and gases. Rates in fluid systems describe the motion of liquids.

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Presentation on theme: "Chapter 3.2 Notes Rate in Fluids. Rates in fluid systems describe the motion of liquids and gases. Rates in fluid systems describe the motion of liquids."— Presentation transcript:

1 Chapter 3.2 Notes Rate in Fluids

2 Rates in fluid systems describe the motion of liquids and gases. Rates in fluid systems describe the motion of liquids and gases. Fluids in motion have speed and acceleration; however we use two different rates to describe how quickly fluids flow – volume flow rate and mass flow rate. Fluids in motion have speed and acceleration; however we use two different rates to describe how quickly fluids flow – volume flow rate and mass flow rate.

3 V represents the volume of fluid in a container. V represents the volume of fluid in a container. The volume flow rate is the change in volume per unit time. The volume flow rate is the change in volume per unit time. represents volume flow rate represents volume flow rate Equation for volume flow rate = change in volume / time Equation for volume flow rate = change in volume / time

4 If the volume flow rate of the oxygen in the shuttle is 16,800 gallons per minute and the tank can hold 143,000 gallons, how long can the shuttle supply oxygen? If the volume flow rate of the oxygen in the shuttle is 16,800 gallons per minute and the tank can hold 143,000 gallons, how long can the shuttle supply oxygen? Vfr =  V / t Vfr =  V / t 16,800 gal/min = 143,000 gal / t 16,800 gal/min = 143,000 gal / t t = 143,000 gal/min /16,800 gal t = 143,000 gal/min /16,800 gal t = 8.51 min t = 8.51 min

5 STOP! Algebra Lesson Algebra Lesson

6 The mass flow rate is the mass of fluid moved per unit time. The mass flow rate is the mass of fluid moved per unit time. represents the mass flow rate represents the mass flow rate The equation for mass flow rate = change in mass/time The equation for mass flow rate = change in mass/time

7 If the shuttle’s fuel tank can hold 7000 grams of hydrogen and is consumed during the first 7 minutes of flight, what is the mass flow rate? If the shuttle’s fuel tank can hold 7000 grams of hydrogen and is consumed during the first 7 minutes of flight, what is the mass flow rate? Mfr = mass / time Mfr = mass / time Mfr = 7000 grams / 7 min Mfr = 7000 grams / 7 min Mfr = 1000 grams/min Mfr = 1000 grams/min

8 Methods for measuring volume and mass flow rates vary, depending on the situation. Methods for measuring volume and mass flow rates vary, depending on the situation. The simplest, most direct method to find average flow rate is to collect fluid and measure the amount of fluid collected over time. The simplest, most direct method to find average flow rate is to collect fluid and measure the amount of fluid collected over time.

9 Flowmeters measure the average flow rate of fluids by measuring pressure and velocity and calculating the flow rate. Flowmeters measure the average flow rate of fluids by measuring pressure and velocity and calculating the flow rate. Flowmeters use indirect methods to measure flow rates so that they do not interrupt the flow. Flowmeters use indirect methods to measure flow rates so that they do not interrupt the flow.

10 Flow Meter Demo

11 Volume flow rate equation using speed = area x speed Volume flow rate equation using speed = area x speed Mass flow rate equation using speed = density x area x speed Mass flow rate equation using speed = density x area x speed To find cross sectional area of a pipe use this equation = pi x r 2 To find cross sectional area of a pipe use this equation = pi x r 2

12 If the pipe is 18 meters in diameter and the speed of the liquid is 24 m/s, what is the volume flow rate? If the pipe is 18 meters in diameter and the speed of the liquid is 24 m/s, what is the volume flow rate? A = pi x r 2 A = pi x r 2 r = d/2 = 18/2 = 9 m r = d/2 = 18/2 = 9 m A = 3.14 x 9 2 = 254.34 m 2 A = 3.14 x 9 2 = 254.34 m 2 Vfr = Area x speed Vfr = Area x speed Vfr = 254.34 m 2 x 24 m/s Vfr = 254.34 m 2 x 24 m/s Vfr = 6104.16 m 3 /s Vfr = 6104.16 m 3 /s

13 If the mass density is.5 g/L, the diameter of the pipe is 10 meters, and the speed is 190 m/s, what is the mass flow rate? If the mass density is.5 g/L, the diameter of the pipe is 10 meters, and the speed is 190 m/s, what is the mass flow rate? A = pi x r 2 A = pi x r 2 r = d/2 = 10/2 = 5 m r = d/2 = 10/2 = 5 m A = 3.14 x 5 2 = 78.5 m 2 A = 3.14 x 5 2 = 78.5 m 2 Vfr = Area x speed x density Vfr = Area x speed x density Vfr = 78.5 m 2 x 190 m/s x.5 g/L Vfr = 78.5 m 2 x 190 m/s x.5 g/L Vfr = 7457.50 g/s Vfr = 7457.50 g/s


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