The figure illustrates flow through a pipe with diameters of 1.0 mm and 2.0 mm a
ID: 1442274 • Letter: T
Question
The figure illustrates flow through a pipe with diameters of 1.0 mm and 2.0 mm and with different elevations. Px is the pressure in the pipe, and Vx is the speed of a non-viscous incompressible fluid at locations x = Q,R,S,T, or U
i Chrome File Edit View History Bookmarks People Window Help 0 0 t 60% O 3 ) Tue 2:47 PM Q = 0 0 0 D chem252, 2nd review hand x I Sig in to your account xg LON-CAPA Laminar flow e CCX The Figure Illustrates Flow X | G C D https//s1.lite.msu.edu/res/msui/kashy/physicsLib02/33_Fluids2_Bernoulli/LaminarFlowCpt.problem?symb=uploaded%2fmsu%2 fi3152883582567dmsul .. W = You Main Menu Contents | Grades | J Course Contents » .. > Homework Set #7 (due 3/22 at 11:59PM ) » Laminar flow concepts GO Time O Notes J Evaluate a Feedback E Print o Info The figure illustrates flow through a pipe with diameters of 1.0 mm and 2.0 mm and with different elevations. Px is the pressure in the pipe, and Vx is the speed of a non-viscous incompressible fluid at locations x = Q, R,S,T, or U. D = 1 mm D=2 mm T - E PT is ... PR E Vu is ... Vs E Vs is ... 2VR D Ps is ... PT. E Vo is ... VT E PQ is ... PT Submit Answer Tries 0/20 9 Post Discussion Send Feedback 2 O 2 O 1 N O % GA, . g o WA HUExplanation / Answer
As one go to the heights,the pressure decreases
hence
PT is greater than PR
VU is equal to Vs
Vs is equal to 2VR
PS is less than PT
VQ is greater than VT
PQ is less than PT
these all questions are answered from Bernoullies theorem
which states that at high pressure regions the speed of the fluid is slow and vice versa