Problem 1 The manometer pressure at pipe A is about 30mmHg and the initial differential reading of Mercury is 0.30 m as shown. Calculate the absolute pressure at pipe B. Note: Νερο: Water, Υγράργυρος: Mercury, Πετρέλαιο: Οι Result: [142.8 kPa] Nepo 0.50 m Πετρέλαιο 0.15 m 0.30 m Υδράργυρος Figure 1 Problem 1 The manometer pressure at pipe A is about 30mmHg and the initial differential reading of Mercury is 0.30 m as shown. Calculate the absolute pressure at pipe B. Note: Νερο: Water, Υγράργυρος: Mercury, Πετρέλαιο: Οι Result: [142.8 kPa] Nepo 0.50 m Πετρέλαιο 0.15 m 0.30 m Υδράργυρος Figure 1
Problem 1 The manometer pressure at pipe A is about 30mmHg and the initial differential reading of Mercury is 0.30 m as shown. Calculate the absolute pressure at pipe B. Note: Νερο: Water, Υγράργυρος: Mercury, Πετρέλαιο: Οι Result: [142.8 kPa] Nepo 0.50 m Πετρέλαιο 0.15 m 0.30 m Υδράργυρος Figure 1 Problem 1 The manometer pressure at pipe A is about 30mmHg and the initial differential reading of Mercury is 0.30 m as shown. Calculate the absolute pressure at pipe B. Note: Νερο: Water, Υγράργυρος: Mercury, Πετρέλαιο: Οι Result: [142.8 kPa] Nepo 0.50 m Πετρέλαιο 0.15 m 0.30 m Υδράργυρος Figure 1
Refrigeration and Air Conditioning Technology (MindTap Course List)
8th Edition
ISBN:9781305578296
Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson
Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson
Chapter1: Heat, Temperature, And Pressure
Section: Chapter Questions
Problem 14RQ: Atmospheric pressure at sea level under standard conditions is ______inches of mercury (Hg) or_____...
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The manometer pressure at pipe A is about 30mmHg and the initial differential reading of Mercury is 0.30 m as shown.
Calculate the absolute pressure at pipe B.
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