A pipe delivers grape juice to a 1.5 m diameter tank. Another pipe (5 cm in diameter), located near the base of the tank is used to extract the grape juice from the tank. Calculate the rate of flow of juice into the tank if the surface of the juice remains constant at a height of 3 m. (Assuming the physical properties of grape juice as water and the acceleration due to gravity is 9.81 m / s?) = liters / minute.

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
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A pipe delivers grape juice to a 1.5 m diameter tank. Another pipe (5 cm in diameter), located near the base of the tank is used to extract the grape juice from the tank. Calculate the rate of flow of juice into the tank if the surface of the juice remains constant at a height of 3 m. (Assuming the physical properties of grape juice as water and the acceleration due to gravity is 9.81 m / s?) = liters / minute.
A pipe delivers grape juice to a 1.5
m diameter tank. Another pipe (5
cm in diameter), located near the
base of the tank is used to extract
the grape juice from the tank.
Calculate the rate of flow of juice
into the tank if the surface of the
juice remains constant at a height
of 3 m. (Assuming the physical
properties of grape juice as water
and the acceleration due to gravity
is 9.81 m / s?) =
liters / minute.
10 12
Transcribed Image Text:A pipe delivers grape juice to a 1.5 m diameter tank. Another pipe (5 cm in diameter), located near the base of the tank is used to extract the grape juice from the tank. Calculate the rate of flow of juice into the tank if the surface of the juice remains constant at a height of 3 m. (Assuming the physical properties of grape juice as water and the acceleration due to gravity is 9.81 m / s?) = liters / minute. 10 12
12.25 d
(76
e-learning.untan.ac.id/l
18
Sebuah pipa mengalirkan jus anggur ke tangki berdiameter 1,5
m. Pipa lain (diameter 5 cm), terletak di dekat pangkal tangki
digunakan untuk mengeluarkan jus anggur tersebut dari tangki.
ut of
Hitung laju aliran jus masuk ke tangki jika permukaan jus tetap
konstan di ketinggian 3 m. (diasumsikan sifat fisik jus anggur
sebagaimana air dan percepatan gravitasi 9.81 m/s?)=
liter/menit.
us page
Next page
PROUDLY MADE WITH noodle
Transcribed Image Text:12.25 d (76 e-learning.untan.ac.id/l 18 Sebuah pipa mengalirkan jus anggur ke tangki berdiameter 1,5 m. Pipa lain (diameter 5 cm), terletak di dekat pangkal tangki digunakan untuk mengeluarkan jus anggur tersebut dari tangki. ut of Hitung laju aliran jus masuk ke tangki jika permukaan jus tetap konstan di ketinggian 3 m. (diasumsikan sifat fisik jus anggur sebagaimana air dan percepatan gravitasi 9.81 m/s?)= liter/menit. us page Next page PROUDLY MADE WITH noodle
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