2 A water-pipe (A) within a closed chamber is connected to a mercury manometer and a water manometer is connected to the chamber as shown in the figure-2. Determine the absolute pressure (kPa) in the water-pipe (A) if the atmospheric temperature is 27° C and pressure is 1.1 bar. (Given that g = 9.81 m/s²) Take the last three digits of your student ID as a mercury column height (X mm) and take the last two digits of your student ID as a water column height (XX mm). (For Example: If your Student ID is 218362568, last 3 digits = 568, X=568 mm last 2 digits = 68, XX=68 mm) 100 cm Air PHg = 13600 kg/m³ Atmospheric Air (27° C) PH₂0= 1000 kg/m³ XX mm
2 A water-pipe (A) within a closed chamber is connected to a mercury manometer and a water manometer is connected to the chamber as shown in the figure-2. Determine the absolute pressure (kPa) in the water-pipe (A) if the atmospheric temperature is 27° C and pressure is 1.1 bar. (Given that g = 9.81 m/s²) Take the last three digits of your student ID as a mercury column height (X mm) and take the last two digits of your student ID as a water column height (XX mm). (For Example: If your Student ID is 218362568, last 3 digits = 568, X=568 mm last 2 digits = 68, XX=68 mm) 100 cm Air PHg = 13600 kg/m³ Atmospheric Air (27° C) PH₂0= 1000 kg/m³ XX mm
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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X = 081
XX = 81
Transcribed Image Text:2
ASSIGNMENT-1
A water-pipe (A) within a closed chamber is connected to a mercury manometer and a water manometer is
connected to the chamber as shown in the figure-2. Determine the absolute pressure (kPa) in the water-pipe (A)
if the atmospheric temperature is 27° C and pressure is 1.1 bar. (Given that g = 9.81 m/s²)
Take the last three digits of your student ID as a mercury column height (X mm) and take the last two digits of
your student ID as a water column height (XX mm).
(For Example: If your Student ID is 218362568, last 3 digits = 568, X=568 mm
last 2 digits = 68, XX=68 mm)
100 cm
A
Due: 27th MARCH 2023
Air
PHg = 13600 kg/m³
Figure 2 (not to scale)
Atmospheric Air
(27° C)
PH₂0 = 1000 kg/m³
XX mm
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