Engineering, 19.10.2020 17:01 chayaharroch03
A Newtonian fluid is confined in the annular space between a solid inner cylinder (radius r1) and the inner wall of a pipe (radius r2). The inner cylinder is stationary, but the outer pipe is moving upward at a velocity v2. The pressure is atmospheric on both ends of the pipe.
Required:
a. Simplify the Navier Stokes Equations to describe laminar flow of the fluid in the annular space. State and justify all simplifying assumptions.
b. Write appropriate boundary conditions that could be used to integrate your result from Part A to obtain a laminar flow velocity profile of the fluid between r1 and r2.
c. Integrate your result from Part A to get an equation for velocity in terms of r and two integration constants C1 and C2. You do not need to evaluate C1 and C2.
Answers: 2
Another question on Engineering
Engineering, 04.07.2019 16:10
An electrical motor raises a 50kg load at a construct velencity .calculate the power of the motor, if it takes 40sec to raise the load through a height of 24m(take g =9.8n/g)
Answers: 2
Engineering, 04.07.2019 19:10
For a process taking place in a closed system containing gas, the volume and pressure relationship is pvi-constant. -1.5 bar, the process starts with initial conditions, pi = =0.03 m3 and ends with final volume, v2-0.05 m3 determine the work done by the gas.
Answers: 2
Engineering, 04.07.2019 19:10
Analyze the factors that influence the choice between the following pairs of processes to make the products indicated: i) sand casting versus die casting of an electric-motor housing ii) thread rolling versus machining of a bolt for high-strength application. (co3/c5)
Answers: 3
Engineering, 04.07.2019 19:20
The quality is zero at a)-the saturated vapour state b)-the saturated liquid state c)-the saturated liquid-vapour mixture state d)-none of the states in the other answers
Answers: 3
You know the right answer?
A Newtonian fluid is confined in the annular space between a solid inner cylinder (radius r1) and th...
Questions
Mathematics, 17.01.2020 05:31
English, 17.01.2020 05:31
Computers and Technology, 17.01.2020 05:31
Mathematics, 17.01.2020 05:31
