Calculating Gauge Pressure and Water Flow in a Multi-Floor House

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The discussion revolves around calculating gauge pressure and water flow in a multi-floor house. The gauge pressure at a second-floor faucet, located 6.3 m above the main water line with a pressure of 1.90 x 10^5 Pa, is determined to be 61,740 Pa, accounting for the pressure drop due to the height of the water column. Clarification was provided regarding the correct interpretation of the gauge pressure value. Additionally, the minimum pressure required to ensure water flows from a faucet was discussed, emphasizing the importance of accurate pressure measurements. The conversation highlights the need for careful calculations in fluid dynamics scenarios.
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Homework Statement


The main water line enters a house on the first floor. The line has a gauge pressure of 1.90 multiplied by 105 Pa.
(a) A faucet on the second floor, 6.3 m above the first floor, is turned off. What is the gauge pressure at this faucet?
(b) How high could a faucet be before no water would flow from it, even if the faucet were open?

Homework Equations


P=F/A
density= m/v
Fbuoyancy= (density)Vg
P + (1/2)(density)(v)^2 + (density)gh = constant
P= (density)gh

The Attempt at a Solution


P= 1000(9.8)(6.3) = 61740? not right. I'm not sure what else to do.
 
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Anyone? It's due tonight so if someone could give me a couple of tips that would be great. thanks in advance
 
1. (a) It's 61740 Pa below the gauge pressure on the lower floor, since the pressure applied by the 6.3 m water column is part of the water pressure felt on the first floor. Are you sure the line's gauge pressure is 1.90*105 Pa and not 1.90*105 kPa?

(b) What's the minimum water pressure necessary to force water out?
 
Yeah actually the pressure is 1.9 x10^5 Pa not 1.9 x 105 Pa. I accidentally typed it wrong onto the computer
 
ok I figured it out. Thank you so much ideasrule for your help.
 

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