Common data: g = 9.81 m/s²; the density of water is ϱH2O=1kg/dm3ϱH2O=1kg/dm3. Water flows at 41...

g = 9.81 m/s². The standard properties of water are density: ϱH2O=1kg/dm3ϱH2O=1kg/dm3 exactly, kinematic viscosity: νH2O=1.02⋅10−6m2/s...

g = 9.81 m/s². The standard properties of water are density: ϱH2O=1kg/dm3ϱH2O=1kg/dm3 exactly, kinematic viscosity: νH2O=1.02⋅10−6m2/s The specification of a certain liquid states that its specific gravity is 0.661, its viscosity is 84.1 cPo (centipoise). Express the physical properties of this material in one of the given SI units. Density (in kg/m3): Specific weight (in N/m³): Dynamic viscosity (in mPa·s): Kinematic viscosity (in m²/s):

Water flows through a circular pipe with a radius of 10 cm at 12 m/s. (a)...

Water flows through a circular pipe with a radius of 10 cm at 12 m/s. (a) If the radius of the pipe increases to 20 cm, what is the new speed of the water in the pipe? (b) Does the volume flow rate or the mass flow rate change in the pipe? (c) Calculate both the volume flow rate and mass flow rate in the pipe?

Water (ρ = 999 kg/m3, μ = 1.3x10-3 N/s) from a large tank with P1 flows...

Water (ρ = 999 kg/m3, μ = 1.3x10-3 N/s) from a large tank with P1 flows through a pipeline at the rate of 0.14 m3/s to atmosphere as shown. The pipe diameter of the entire piping system is 20 cm and material is cast iron. Knowing discharge velocity V2 is the same as the flow velocity in the pipe, no discharging nozzle loss, Kinlet = 0.5, and Kelbow = 1.1, calculate the absolute P1 (MPa) in the tank needed to...

Water flows through a 5-cm-diameter pipe at the average velocity of 1.25 m/s. (a) In the...

Water flows through a 5-cm-diameter pipe at the average velocity of 1.25 m/s. (a) In the dimensions of L/s, what is the volumetric flow rate? (b) If the diameter of the pipe is reduced by 20% at a constriction, by what percentage does the water’s velocity change? I need answer only in typed form. otherwise I'll downvote

Water, with a density of ?=1185 kg/m3 , flows in a horizontal pipe. In one segment...

Water, with a density of ?=1185 kg/m3 , flows in a horizontal pipe. In one segment of the pipe, the flow speed is ?1=7.13 m/s . In a second segment, the flow speed is ?2=1.57 m/s . What is the difference between the pressure in the second segment ( ?2 ) and the pressure in the first segment ( ?1 )? P2-P1 = A liquid of density 1110 kg/m3 flows steadily through a pipe of varying diameter and height. At...

1. Water flows in a 0.2 cm, 15-m long pipe at 1.2 m/s. Determine the flow...

1. Water flows in a 0.2 cm, 15-m long pipe at 1.2 m/s. Determine the flow regime, the pressure drop across the pipe, in kPa, the head loss through the pipe in m and the volume flow rate through the pipe, in L/s. [8-31*]

A fluid of viscosity 0,002 N-s /m2 and density 1000 kg/m3 flows with an average speed...

A fluid of viscosity 0,002 N-s /m2 and density 1000 kg/m3 flows with an average speed of 1 m/s in a 2 cm-diameter horizontal smooth pipe . Calculate a)magnitude of shearing stress at the pipe wall. b) shear stress velocity of flow c) magnitude of pressure gradient to induce flow

Water flows through a pipe of 5mm in diameter with a mean velocity of 0.2 m/s....

Water flows through a pipe of 5mm in diameter with a mean velocity of 0.2 m/s. The dynamic viscosity of the water is given as 10-3 Pa s. Establish whether the equation f = 64/Re may be used to calculate the friction factor for this flow.

1.) A liquid of density 1390 km/m^3 flows steadily through a pipe of varying diameter and...

1.) A liquid of density 1390 km/m^3 flows steadily through a pipe of varying diameter and height. At Location 1 along the pipe, the flow speed is 9.31 m/s and the pipe d1 diameter is 10.3cm . At Location 2, the pipe diameter d2 is 17.5 cm . At Location 1, the pipe is triangle y= 9.31m higher than it is at Location 2. Ignoring viscosity, calculate the difference between the fluid pressure at Location 2 and the fluid pressure...

Water moves through a constricted pipe in steady, ideal flow. At the lower point shown in...

Water moves through a constricted pipe in steady, ideal flow. At the lower point shown in the figure below, the pressure is P1= 2.00  104 Pa, and the pipe diameter is 5.0 cm. At another point y = 0.40 m higher, the pressure is P2 = 1.25  104 Pa and the pipe diameter is 2.50 cm. A) find the speed of flow in the lower section in m/s B) find the speed of flow in the upper section in m/s C) Find...