The figure below represents the working principle of an industrial pressure gauge. The cylinders and tubing are filled with an oil whose density is 0.780 g/cm3. The sections transverse pistons have an area of 40 cm² and 4000 cm² (a) Calculate, in N, the value of the force F to be applied to the smaller piston of the press shown in the figure, required to balance the load F’ of 4400
The figure below represents the working principle of an industrial pressure gauge. The cylinders and tubing are filled with an oil whose density is 0.780 g/cm3. The sections transverse pistons have an area of 40 cm² and 4000 cm² (a) Calculate, in N, the value of the force F to be applied to the smaller piston of the press shown in the figure, required to balance the load F’ of 4400
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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The figure below represents the working principle of an industrial pressure gauge. The cylinders and tubing are filled with an oil whose density is 0.780 g/cm3. The sections transverse pistons have an area of 40 cm² and 4000 cm²
(a) Calculate, in N, the value of the force F to be applied to the smaller piston of the press shown in the figure, required to balance the load F’ of 4400 kgf on the larger plunger. (1 kgf = 9,80665 N)
(b) what must be the relationship between F and F’ for h = 0 m?
Transcribed Image Text:F
h= 40 cm
oil
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