(c) The diameter of the piston and qutletof the paint sprayer in Fig. 1 is 6 cm and 0.5 cm, respectively. The stroke_of thepiston is 25 cm and the height difference between the liquid level in the contairter'arid the upper hole of tube is 12 cm. Calculate the minimum velocity of the piston during pumping to initiate atomizing effect if the liquid density is 1200 kg/m². Take the atmospheric conditions are 20°C and 95 kPa (air density, Patr = 1.13kg/m³), and the %3D liquid reservoir is open to the atmosphere.
(c) The diameter of the piston and qutletof the paint sprayer in Fig. 1 is 6 cm and 0.5 cm, respectively. The stroke_of thepiston is 25 cm and the height difference between the liquid level in the contairter'arid the upper hole of tube is 12 cm. Calculate the minimum velocity of the piston during pumping to initiate atomizing effect if the liquid density is 1200 kg/m². Take the atmospheric conditions are 20°C and 95 kPa (air density, Patr = 1.13kg/m³), and the %3D liquid reservoir is open to the atmosphere.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:(c) The diameter of the piston and qutled,of the paint sprayer in Fig. 1 is 6 cm and 0.5 cm,
respectively. The stroke_of thepston is 25 cm and the height difference between the liquid
level in the contairfer'and the upper hole of tube is 12 cm. Calculate the minimum velocity of
the piston during pumping to initiate atomizing effect if the liquid density is 1200 kg/m³. Take
the atmospheric conditions are 20°C and 95 kPa (air density, Patr = 1.13kg/m³), and the
liquid reservoir is open to the atmosphere.
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