8. estion 1A horizontal square wooden rod, 2 m long, 0.2 m head width is hung and fixed at the center of a larger horizontal square stainless steel tank filed with liquid water. The outer tank is 2 es width and 5 mlong. The outer tank is moving with a velocity of 0.5 m/s. Neglect the pressure drop between inlet and exit. Assume constant fluid physical properties (fuld viscosity is 0 001 kgims, fluid denuity 0.9kg/m³), g-9.81 m/s². The pressure at the entrance is 5 atm. Calculate the steady state velocity (m/s) of tuid at the middle of the distance between the rod outer surface and the inner surface of theouter tank.ovƏv8²v,OPƏv++ PB₂P+pv₂ovZ+V₂byOy²02²əzaaccnmalationtransportly viscous forcesaxtransportby boll flow+peration

Answered: Image /qna-images/answer/00595a1a-ccc6-4851-9724-2f4e7550aa0d.jpg

width and 5 m A horizontal square wooden rod, 2 m long. 0.2 m head width is hung and fixed at the center of a larger horizontal square stainless steel tank Wed with fiquid water The outer tank i long. The outer tank is moving with a velocity of 0.5 m/s. Neglect the pressure drop between inlet and exit. Assume constant fluid physical properties (uid viscosity is 8001 kgs Ruid donty 09 kg/m³), g-9.81 m/s². The pressure at the entrance is 5 atm. Calculate the steady state velocity (m/s) of uld at the middia of the distance between the rod outer surface and the inner surface of the outer tank. OP Ov 8²v + + + PE Əv Z+V₁ ex ov +V, by ὄν ==14 Cz Ex² Oy² a dz 2 + pv₂ at accnmulation pation tranquefly viscous forms transportby belle flere

width and 5 m A horizontal square wooden rod, 2 m long. 0.2 m head width is hung and fixed at the center of a larger horizontal square stainless steel tank Wed with fiquid water The outer tank i long. The outer tank is moving with a velocity of 0.5 m/s. Neglect the pressure drop between inlet and exit. Assume constant fluid physical properties (uid viscosity is 8001 kgs Ruid donty 09 kg/m³), g-9.81 m/s². The pressure at the entrance is 5 atm. Calculate the steady state velocity (m/s) of uld at the middia of the distance between the rod outer surface and the inner surface of the outer tank. OP Ov 8²v + + + PE Əv Z+V₁ ex ov +V, by ὄν ==14 Cz Ex² Oy² a dz 2 + pv₂ at accnmulation pation tranquefly viscous forms transportby belle flere

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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Question

estion 1
A horizontal square wooden rod, 2 m long, 0.2 m head width is hung and fixed at the center of a larger horizontal square stainless steel tank filed with liquid water. The outer tank is 2 es width and 5 m
long. The outer tank is moving with a velocity of 0.5 m/s. Neglect the pressure drop between inlet and exit. Assume constant fluid physical properties (fuld viscosity is 0 001 kgims, fluid denuity 0.9
kg/m³), g-9.81 m/s². The pressure at the entrance is 5 atm. Calculate the steady state velocity (m/s) of tuid at the middle of the distance between the rod outer surface and the inner surface of the
outer tank.
ov
Əv
8²v,
OP
Əv
+
+ PB₂
P
+pv₂
ov
Z+V₂
by
Oy²
02²
əz
a
accnmalation
transportly viscous forces
ax
transportby boll flow
+
peration

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