 | Edward Spon, Oliver Byrne, Ernest Spon, Francis N. Spon - 1874 - 396 páginas
...of the diameter of the cylinder, and divide the product by the entire pressure on the piston; then extract the square root of the quotient for the diameter of the forcing pump. The foregoing is the theory of the hydrostatic press, as restricted to the consideration of the diameters of the... | |
 | 1874 - 1186 páginas
...by the following rule : Kule. — Divide the given pressure in tons by the constant number 2-9186, and extract the square root of the quotient for the diameter of the cylinder in inches. EramjJe. — The diameter of the cylindex in a hydrostatic press, is 10 inches... | |
 | Park Benjamin - 1880 - 1004 páginas
...process, or by the following rule: Divide the given pressure in tons by the constant number 2.9186, and extract the square root of the quotient for the diameter of the cylinder in inches. Erampk. — The diameter of the cylinder in n hydrostatic press is 10 inches; what... | |
 | Park Benjamin - 1880 - 1002 páginas
...process, or by the following rule: Divide the given pressure in tons by the constant number 2.!'186, and extract the square root of the quotient for the diameter of the cylinder in inches. Ef ample. — The diameter of the cylinder in a hydrostatic press is 10 inches;... | |
 | Henry Charles Tulley - 1902 - 940 páginas
...to 100 per cent of itself, — depending on the speed of the pump, — and divide the sum by .7854, and extract the square root of the quotient for the diameter of the steam piston. Example. — What should be the diameter of the 'steam piston to force water against... | |
 | Henry Charles Tulley - 1902 - 944 páginas
...to 100 per cent of itself, — depending on the speed of the pump, — and divide the sum by .7854, and extract the square root of the quotient for the diameter of the steam piston. Example. — What should be the diameter of the steam piston to force water against a... | |
 | Henry Charles Tulley - 1924 - 416 páginas
...to 100 per cent of itself, — depending on the speed of the pump, — and divide the sum by 0.7854, and extract the square root of the quotient for the diameter of the steam piston. Example. — What should be the diameter of the steam piston to force water against a... | |
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... inch ; and divide the product by the pressure of steam in pounds per square inch. The quotient will give the area of steam piston in square inches to balance the resistance. To this quotient add from 30 to 100 per cent of itself, — depending on... 