You are told, “Bernoulli’s equation tells us that where there is higher fluid speed, there is lower fluid pressure, and vice versa.” Is this statement always true, even for an idealized fluid? Explain.
Q: An incompressible fluid of uniform density flows through an infınitely long pipe. In the section…
A: Use equation of continuity to find the speed of fluid in the wide region of the pipe as shown below
Q: A cube of mass m = 620 kg is totally immersed in a liquid of density ρ = 1.12 g/cm3. The cube has an…
A: The pressure P at a certain depth in a liquid is given by the hydrostatic pressure formula, which is…
Q: Question 8 A pipe whose initial diameter is 20 cm runs horizontally for 15 m. The fluid flows…
A: Given: Initial diameter = 20 cm which runs horizontally for 15 m The density of the water in the…
Q: An ideal fluid flows through a pipe made of 2 sections with a diameter of 1 and 4cm, respectively.…
A: Given, Diameter D1=1 cm Diameter D2=4 cm Let speed v1 and v2 at crosssection D1 and D2
Q: Bowling balls are roughly the same size but come in a variety of weights. Given that the official…
A:
Q: The Venturi tube shown in the figure below may be used as a fluid flowmeter. Suppose the device is…
A: Given Information:- Density of gasoline is ρ=7.00×102 kg/m3 Radius of the inlet pipe is…
Q: A pipe of diameter 0.3 m increases to a diameter of 0.84 m. If the fluid is traveling at 4.6 m/s in…
A:
Q: Hi please help: the Venturi tube shown may be used as a fluid flowmeter. Suppose the device is used…
A: Solution: Given values, P1-P2=1340 Pa R1=0.02 mR2=0.01 mdensity=750 kg/m3
Q: Most homes have an outdoor faucet to which they can attach a standard 3/4 inch (diameter) garden…
A: diameter of garden hose = 0.75 inch radius of garden hose = 0.375 inch flow rate of water = 8.5…
Q: A hypodermic syringe contains a medicinė with tne everywhere is 1.00 atm. A force F of magnitude…
A: area of syringe barrel = A1 = 2.82 x 10-5 m2 force = F = 1.72 N density of water = 1000 kg/m3
Q: A container of cross-sectional area 122 cm2 contains liquid of density 1.75 g/cm3 to a height of…
A:
Q: The venturi tube as shown in the figure may be used as a fluid flowmeter. Suppose the device is used…
A: Solution: given that liquid density p=700 kg/m3 pressure difference P1-P2=51.2 kPa inlet tube radius…
Q: (numbers 2-3) An ideal fluid flows through a vertically oriented cylindrical tube of varying radius…
A:
Q: An incompressible ideal fluid flows steadily through a pipe. At one point in the pipe, the fluid…
A: Given data: The pipe diameter at one point (d1) = 6.95 cm Speed (v1) = 1.95 m/s The diameter of…
Q: Consider a healthy artery, with blood flow velocity of 0.14m/s and density of 1050kg/m³. Suppose…
A: Given, Initial velocity,v1=0.14 m/s Density of blood,ρ=1050 kg/m3 Initial area of cross-section,A1=A…
Q: A pair of vertical, open-ended glass tubes inserted into a horizontal pipe are often used together…
A: The objective of the question is to find the speed of the fluid at the left end of the main pipe…
Q: A hypodermic syringe contains a medicine with the density of water (figure below). The barrel of the…
A:
Q: 4.0 mm Consider the following diagram. (let air be an ideal, incompressible fluid) 2.0 cm 1200 cm's…
A:
Q: Water enters a pipe of rectangular cross section of dimensions 6.5 cm by 8.0 cm at a velocity of 4.0…
A: Given, rectangular cross section of dimesions 6.5 cm by 8.0 cmvelocity, v1 = 4.0 cmsradius of…
Q: 9. An ideal fluid is moving at 2.80 m/s in a section of a pipe of radius 0.140 m. If the speed in…
A:
Q: An unknown fluid flows through a pipe at a constant rate of 160 m3/s. How fast will it move in a…
A:
Q: A cylindrical tank has a radius of 0.15 m and a pipe 0.23 m below the original water level through…
A: Apply Bernoulli's theorem at the top of cylindrical tank and pipe. P1+12ρv12+ρgh1=P2+12ρv22+ρgh2…
Q: The aorta carries blood away from the heart at a speed of about 45 cm/sec and has a radius of about…
A: Given, speed of blood in aorta , vaorta=45 cm/sec Radius of aorta, Raorta=1 cm Speed of blood in…
Q: A pipe has a cross-sectional area of 16.5cm2 at point A, where the speed of the fluid (water) is 1.2…
A:
Q: 3) What is the fluid speed (in m/s) in a fire hose with a 7.00 cm diameter carrying 73.0L of water…
A:
Q: A pipe made of two joined sections with different diameters of 1.0 and 4.0 inches, respectively. An…
A: Given data: Diameter of pipe 1 d1=1.0 inches Diameter of pipe 2, d2=4.0 inches
Q: An incompressible ideal fluid flows steadily through a pipe that has a change in diameter. The fluid…
A: Here D1 = 12.8 cm V1 = 1.09 m/s Also , D2 = 5 cm
Trending now
This is a popular solution!
Step by step
Solved in 2 steps
- Glycerin flows through a 6.0 cm diameter pipe at 0.98 m/s. What is the fluid’s speed in a 3.5 cm diameter pipe that connects with it, both pipes are flowing full.Water is flowing through a pipe with a constriction. The area of the narrow section is one-half the area of the wide section. If the velocity of the incompressible fluid is 3.2 m/s in the narrow section, then what is the velocity of the fluid in the wide section? Multiple Choice 0.9 m/s 1.0 m/s 1.6 m/s 1.8 m/s 1.9 m/sA container of cross-sectional area 107 cm2 contains liquid of density 1.75 g/cm3 to a height of 6.80 cm above a small hole of area 1.00 cm2 in the side. (a) Find the speed of the fluid as it leaves the hole.(b) Find the flow rate through the hole.
- A manometer using oil (density 0.900 g/cm3) as a fluid is connected to an air tank. Suddenly the pressure in the tank increases by 7.48 mmHg. Density of mercury is 13.6 g/cm3. (A) By how much does the fluid level rise in the side of the manometer that is open to the atmosphere? ____cm (b)By how much does the fluid level rise in the side of the manometer that is open to the atmosphere if the manometer used mercury instead? ___cmWater flows in the system shown below. The flow exits the pipe at a speed of 4.0 m/s.(a). What is the water pressure when it exits the pipe?(b). What is the height of the column of water?Water flowing out of a horizontal pipe emerges through a nozzle. The radius of the pipe is 1.6 cm, and the radius of the nozzle is 0.67 cm. The speed of the water in the pipe is 0.58 m/s. Treat the water as an ideal fluid, and determine the absolute pressure of the water in the pipe. P₁ = Jaka