A pipe carrying water from a tank 18.0 m tall must cross 3.25 102 km of wilderness to reach a remote town. Find the radius of the pipe so that the volume flow rate is at least 0.0500 m3/s. (Use the viscosity of water at 20°C, 1.0 ✕ 10−3 N · s/m2.)
A pipe carrying water from a tank 18.0 m tall must cross 3.25 102 km of...
EXERCISE HINTS: GETTING STARTED I I'M STUCK! A pipe carrying water from a tank 19.5 m tall must cross 3.15 x 102 km of wilderness to reach a remote town. Find the radius of the pipe so that the volume flow rate is at least 0.0500 m3/s. (Use the viscosity of water at 20°C, 1.0 x 10-3 N·s/m?) 3 Check units and do not follow the example too closely. You will need to solve for the desired unknown. There is...
EXERCISE HINTS: GETTING STARTED I I'M STUCK! A pipe carrying water from a tank 19.5 m tall must cross 3.15 x 102 km of wilderness to reach a remote town. Find the radius of the pipe so that the volume flow rate is at least 0.0500 m3/s. (Use the viscosity of water at 20°C, 1.0 x 10-3 N·s/m?) 3 Check units and do not follow the example too closely. You will need to solve for the desired unknown. There is...
PRACTICE IT Use the worked example above to help you solve this problem. A patient receives a blood transfusion through a needle of radius 0.24 mm and length 1.8 cm, The density of blood is 1,050 kg/m3. The bottle supplying the blood is 0.500 m above the patient's arm. What is the rate of flow through the needle? m3/s EXERCISEHINTS: GETTING STARTED | I'M STUCK! A pipe carrying water from a tank 19.0 m tall must cross 3.05 102 km of wilderness to...
PRACTICE IT Use the worked example above to help you solve this problem. A patient receives a blood transfusion through a needle of radius 0.25 mm and length 2.1 cm, The density of blood is 1,050 kg/m3. The bottle supplying the blood is 0.500 m above the patient's arm. What is the rate of flow through the needle? m2/s EXERCISE GETTING STARTED I I'M STUCK! HINTS: A pipe carrying water from a tank 19.5 m tall must cross 3.20 x...
PRACTICE IT Use the worked example above to help you solve this problem. A patient receives a blood transfusion through a needle of radius 0.25 mm and length 2.1 cm, The density of blood is 1,050 kg/m3. The bottle supplying the blood is 0.500 m above the patient's arm. What is the rate of flow through the needle? 1.39E-7 m2/s EXERCISE I I'M STUCK! HINTS: GETTING STARTED A pipe carrying water from a tank 19.5 m tall must cross 3.20...
LEARN MORE REMARKS Compare this to the volume flow rate in the absence of any viscosity. Using Bernoulli's equation, the calculated volume flow rate is approximately five times as great. As expected, viscosity greatly reduces flow rate. QUESTION If the radius of a tube is doubled, by what factor will the flow rate change for a viscous liquid? PRACTICE IT Use the worked example above to help you solve this problem. A patient receives a blood transfusion through a needle...
543 PM Wed Nov 20 webassinet - Private SOLUTION Calculate the pressure difference Substitute into Poiseuille's low P.-P2 - pgh (1,050 kg/m) (9.80 m/s> )co.500 m) - 5.15 x 10 Av. RP,-) -(20 x 10-4 m)" (5.15 x 10"Pa) 8(2.7 x 10-Ns/m?) (2.0 x 10-2 m) 6.0 x 10-8 m /s LEARN MORE REMARKS Compare this to the volume flow rate in the absence of any viscosity. Using Bernouli's equation, the calculated volume flow rate is approximately five times as...
Friction losses in expansion, contraction, and pipe fittings Example An elevated storage tank contains water at 15°C as shown in Figure. It is desired to have a discharge rate at point 2 of 28.8 m3/h. What must be the height H of the surface of the water in the tank relative to the discharge point? The pipe is commercial steel pipe (roughness of pipe surface e = 0.045 mm). Water density and viscosity at 15°C is 999 kg/m2 and 1.1.10-3...
Problem 1. Water flows from a large tank through a smooth pipe of length 80 m. Both the tank free surface and jet exit are exposed to the atmosphere. Take the density of water p = 1000 kg/m3, dynamic viscosity of water u = 0.001 kg/m.s, atmospheric pressure = 100 kPa, and gravity = 9.8 m/s2. Calculate the volumetric flow rate through the pipe. Neglect entrance losses to the pipe. Hint: Consider the inlet and outlet sections of the pipe...
Problem 1. Water flows from a large tank through a smooth pipe of length 80 m. Both the tank free surface and jet exit are exposed to the atmosphere. Take the density of water p = 1000 kg/m3, dynamic viscosity of water j = 0.001 kg/m.s, atmospheric pressure = 100 kPa, and gravity = 9.8 m/s2. Calculate the volumetric flow rate through the pipe. Neglect entrance losses to the pipe. Hint: Consider the inlet and outlet sections of the pipe...