Problem 1: Manometry application Consider the complex manometer of the figure below composed of five different fluids: Benzene, Mercury, Kerosene, Water and air. a) Determine the pressure difference, in Pa, between A and B: b) If the pressure at point C is 2400 Pa, calculate the pressure at A and B: c) Calculate the pressure at points C and D if the pressure at A is twice the pressure at B. Point C Kerosine Air Benzene B 40 cm 19 cm A. 20 cm 14 cm cm Point D Mercury Water Notes: the specific weights of the manometer different fluids are: Benzene: 8640 N/m: Kerosene: 7885 N/m: Mercury 133 100 N/m': Water: 9790 N/m': Air: 12 N/m.

Elements Of Electromagnetics
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Problem 1: Manometry application
Consider the complex manometer of the figure below composed of five different fluids: Benzene,
Mercury, Kerosene, Water and air.
a) Determine the pressure difference, in Pa, between A and B;
b) If the pressure at point C is 2400 Pa, calculate the pressure at A and B:
c) Calculate the pressure at points C and D if the pressure at A is twice the pressure at B.
Point C
Kerosine
Air
Benzene
40 cm
9 cm
20 cm
14 cm
cm
Point D
Mercury
Water
Notes: the specific weights of the manometer different fluids are:
Benzene: 8640 N/m: Kerosene: 7885 N/m': Mercury 133 100 N/m: Water: 9790 N/m:
Air: 12 N/m?.
Transcribed Image Text:Problem 1: Manometry application Consider the complex manometer of the figure below composed of five different fluids: Benzene, Mercury, Kerosene, Water and air. a) Determine the pressure difference, in Pa, between A and B; b) If the pressure at point C is 2400 Pa, calculate the pressure at A and B: c) Calculate the pressure at points C and D if the pressure at A is twice the pressure at B. Point C Kerosine Air Benzene 40 cm 9 cm 20 cm 14 cm cm Point D Mercury Water Notes: the specific weights of the manometer different fluids are: Benzene: 8640 N/m: Kerosene: 7885 N/m': Mercury 133 100 N/m: Water: 9790 N/m: Air: 12 N/m?.
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