Question Set

1. The velocity profile exhibited by laminar flow of Newtonion fluids is such that the velocity distribution w.r.t. radius of the circular pipe is a/an __________ with the apex at the centre line of the pipe.





Ask Your Doubts Here

Type in
(Press Ctrl+g to toggle between English and the chosen language)

Comments

Show Similar Question And Answers
QA->Find the maximum velocity for the overturn of a car moving on a circular track of radius 100 m. The co-efficient of friction between the road and tyre is 0.2?....
QA->Fluids flow with zero viscosity is called?....
QA->What is the ability of fluids to offer resistance to flow?....
QA->Which is the property of fluids determining its resistance to flow ?....
QA->The ratio between the radius and height of a circular one of volume 314 cm (cube) is 5:Its height is....
MCQ->The velocity profile exhibited by laminar flow of Newtonion fluids is such that the velocity distribution w.r.t. radius of the circular pipe is a/an __________ with the apex at the centre line of the pipe.....
MCQ->The following statements relate to a laminar flow : 1. Laminar flow is rotational. 2. In laminar flow the loss of head is proportional to the square of the velocity. 3. In laminar flow the loss of head is proportional to the first power of viscosity. 4. In laminar flow the velocity is constant over the cross-section. 5. Other quantities remaining the same, increase in diameter will increase the Reynolds number in laminar flow. Of these statements :....
MCQ->For laminar flow of Newtonion fluid in a circular pipe, the velocity distribution is a function of the distance 'd' measured from the centre line of the pipe, and it follows a __________ relationship.....
MCQ->For laminar flow of Newtonion fluids through a circular pipe, for a given pressure drop and length & diameter of pipe, the velocity of fluid is proportional to(where, μ = fluid viscosity )....
MCQ->What is the shear rate at the pipe wall, in case of laminar flow of Newtonion fluids in a pipe of diameter 'D' & length 'L' incurring a pressure drop 'Δp' with average velocity 'Vavg'?....
Terms And Service:We do not guarantee the accuracy of available data ..We Provide Information On Public Data.. Please consult an expert before using this data for commercial or personal use | Powered By:Omega Web Solutions
© 2002-2017 Omega Education PVT LTD...Privacy | Terms And Conditions
Question ANSWER With Solution