velocity = 10 m/s inside pipe diameter = 6 cm Assuming all velocities are constant, determine: oil, density = 860 kg/m³ (a) the mass flow rate and volume flow rate of the oil entering the tank (b) the mass flow rate and volume flow rate of water leaving the tank (c) how long will it take for the tank to become empty if it is initially filled half with oil and half with water? 3 m water at 35°C and atmospheric pressure 1.5 m velocity = 4 m/s inside pipe diameter = 15 cm

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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velocity = 10 m/s
inside pipe
diameter = 6 cm
Assuming all velocities are constant,
determine:
oil, density = 860 kg/m³
(a) the mass flow rate and volume flow
rate of the oil entering the tank
(b) the mass flow rate and volume flow
rate of water leaving the tank
(c) how long will it take for the tank to
become empty if it is initially filled
half with oil and half with water?
3 m
water at 35°C and
atmospheric pressure
1.5 m
velocity = 4 m/s
inside pipe diameter = 15 cm
Transcribed Image Text:velocity = 10 m/s inside pipe diameter = 6 cm Assuming all velocities are constant, determine: oil, density = 860 kg/m³ (a) the mass flow rate and volume flow rate of the oil entering the tank (b) the mass flow rate and volume flow rate of water leaving the tank (c) how long will it take for the tank to become empty if it is initially filled half with oil and half with water? 3 m water at 35°C and atmospheric pressure 1.5 m velocity = 4 m/s inside pipe diameter = 15 cm
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