The fluid of density 2300kg/m3 and viscosity of 10-3 m2 /s is placed between two parallel...

The fluid of density 2300kg/m3 and viscosity of 10-3 m2/s is placed between two parallel plates...

The fluid of density 2300kg/m3 and viscosity of 10-3 m2/s is placed between two parallel plates where the distance between two plates is 8 mm. the length of the top and the bottom plate is 4.5m. The top plate is moved and the shear stress is measured to be 1540Pa. Estimate the value of the flow Reynolds number. Draw the appropriate figure and explain the type of flow.

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

Consider two large parallel plates separated by a distance of 0.00914 m and filled with soybean...

Consider two large parallel plates separated by a distance of 0.00914 m and filled with soybean oil of viscosity 40 mPa.s. The lower plate is being pulled at a relative velocity of 0.366 m/s greater than the top plate. (a) Calculate the shear stress and shear rate (b) If glycerol having a viscosity of 1.069 Pa.s is used instead of soybean oil, what relative velocity is needed using the same distance between plates so that the same shear stress is...

Crude oil of density 925 kg/m3 and absolute viscosity 0,065 Ns/m2 at 20oC meter.is pumped through...

Crude oil of density 925 kg/m3 and absolute viscosity 0,065 Ns/m2 at 20oC meter.is pumped through a horizontal pipeline 100 mm in diameter at a rate of 10 L/s. Determine the head loss in each km of pipeline and the shear stress at the pipe wall. And explain the type of head loss and locations in the figure. Explain how you handled these losses at the solution.

A Suppose that two plates are set up in parallel configuration with the top plate with...

A Suppose that two plates are set up in parallel configuration with the top plate with an electric potential of 100 V and bottom plate with an electric potential of 77 V. The plates are separated by a distance of 0.1 m. (a) What is the change in potential energy of a 0.01C charge that is moved from the bottom plate to the top plate? (b) What is the direction and magnitude of electric field between the plates?

a- A plate of length 4m in the direction of the flow and of width 2m...

a- A plate of length 4m in the direction of the flow and of width 2m is pulled at a speed of 108 km/h in water at 15oC find the power needed against the shear force for one side of the plate . b- oil with dynamic viscosity=0.1 N-s/m2 and density=863 kg/m3 flows between 2 parallel plates 2.5 mm apart and inclined 30 degrees to the horizontal at a rate of 300 cm3/s per one meter of width. Calculate the...

A low-speed, incompressible fluid is contained between two infinitely long and wide parallel plates.  The top plate...

A low-speed, incompressible fluid is contained between two infinitely long and wide parallel plates.  The top plate is being pulled at a velocity V2 and the bottom plate is being pulled at a velocity of V1.             a) What is the velocity profile u(y) as a function of y, h, V2 and V1?   Show your work.             b) What is the vorticity for this flow? Show your work.

Suppose that two plates are set up in parallel configuration with the top plate with an...

Suppose that two plates are set up in parallel configuration with the top plate with an electric potential of 100 V and bottom plate with an electric potential of 50 V. The plates are separated by a distance of 0.1 m. (a) What is the change in potential energy of a 0.01C charge that is moved from the bottom plate to the top plate? (b) What is the direction and magnitude of electric field between the plates? please show STEP...

Consider a fluid between two parallel plates. The fluid is at rest. At t=0, the bottom...

Consider a fluid between two parallel plates. The fluid is at rest. At t=0, the bottom plate suddenly starts moving with constant speed in the x direction. a) Derive an expression for the velocity profile. b) Estimate the time required to approach to within 5% of the steady-state velocity.

The properties of the fluid are: density 895 kg/m3, viscosity 0.76 mNm-2s. A double-pipe heat exchanger...

The properties of the fluid are: density 895 kg/m3, viscosity 0.76 mNm-2s. A double-pipe heat exchanger is to be used to heat 6000 kg/h of 22 mol per cent hydrochloric acid. The exchanger will be constructed from karbate (impervious carbon) and steel tubing. The acid will flow through the inner, karbate, tube and saturated steam at 100ºC will be used for heating. The tube dimensions will be: karbate tube inside diameter 50 mm, outside diameter 60 mm; steel tube inside...