Part AA solar water heater mounted on the roof consists of two flat plates. Waterenters at A and exits at B. Assume the average temperature of the water is45°C. (Figure 1)If the gap between the plates is a = 1.58 mm, determine the maximum allowable pressure drop from A to B so that the flow remains laminar.Express your answer to three significant figures and include the appropriate units.Figure2 m1 of 1பНАApmax=ValueSubmitRequest AnswerProvide FeedbackUnits?

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Answered: Part A A solar water heater mounted on…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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A cylindrical tank contains water at a height of 55mm as shown. Inside is a small open cylindrical tank containing cleaning fluid (s.g.-0.8) at a height h. The pressure Pb-13.4 kPa gage and Pc-13.42 kPa gage. Assume the cleaning fluid is prevented from moving to the top of the tank. (a) Determine the pressure Pa in kPa, (b) the value of h in mm, and (c) the value of y in millimeters
If you could help me with parts a-d id greatly appreciate it, I will rate immediately. Thank you.
Note: Don't copy from previous same solution. That is wrong solution. Kindly do it your own way.
PLEASE ANSWER ASAP. WILL UPVOTE. PLEASE HELP
Fluid Mechanics I need a detailed solutions and detailed drawings, thanks!
A closed container contains 1.5m high of water, 2.5m high of oil (SG = 0.8), an unknown liquid (SG = 1.25) whose height is 1.6m, and the pressure at the top of the mixture is 17 KPa. Determine the pressure head at the bottom of the container in millimeters of mercury (SG = 13.6) No answer among the choices B 531.83 mm (c) 587.64 mm D) 634.23 mm E) 472.81 mm
i need the answer quickly
Q-Water flows through a pipe having an inner radius of 10 mm at the rate of 36 kg/hr at 25° C. The viscosity of water at 25°C is 0.001 kg/m.s. The Reynolds number of the flow is
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Air is flowing from a reservoir through a long, insulated, isentropic nozzle. The pressure and temperature at the reservoir are 15 atm and 950 K, respectively. The Mach number at the entrance of the pipe is 0.05. Determine the maximum allowable length of the pipe. Assume that the inside of the pipe is smooth.
Part 2Two pipes are connected by a manometer as shown. Determine the pressure difference, between the pipes in kPa.
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