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Books Books 1 - 10 of 12 on Having established the true modulus of rigidity for each shaft, we may proceed to....  
" Having established the true modulus of rigidity for each shaft, we may proceed to build up our power diagram based on the formula where H= shaft horse-power, 6 = torque in degrees, D = diameter of shaft in inches, N= number of revolutions per minute,... "
The marine steam turbine: a practical description of the Parsons marine ... - Page 256
by John William Major Sothern - 1909 - 337 pages
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A Practical Treatise on Water-supply Engineering: Relating to the Hydrology ...

Hydraulic engineering - 1877 - 619 pages
...mover, with gears : d= A'/^-, andP=. Steel transmitting shaft : d = 831'25P , and P = .032Nds. In which d = diameter of shaft in inches. N = number of revolutions per minute. P = horse powers. TRIGONOMETRICAL EXPRESSIONS. COTANGENT *.^_ ' COSINE ^ J^ *T 1 ^^ \...
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A Practical Treatise on Hydraulic and Water-supply Engineering: Relating to ...

John Thomas Fanning - Hydraulic engineering - 1886 - 629 pages
...gears : d = , and P = . Steel transmitting shaft : d = \8/31'25jP, and P = .032m3. V .ZV In which d diameter of shaft in inches. N number of revolutions per minute P = horse powers. TRIGONOMETRICAL EXPRESSIONS. _CqTANCENT Radius = Ad Sine =Ci Cosine Ce. Tangent...
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The Power Catechism: Correct Answers to Direct Questions Covering the Main ...

Steam engineering - 1897 - 226 pages
...figure, middle bottom " i .01 1 x d'Xn 2 .OI4X da xn 3 .oi8x d' xn In these formulae is d = diameter of shaft in inches. n = number of revolutions per minute. Torsiona! maximum fiber strain in pounds per sq. inch allowed above formulae d. a) Wrought Iron1 =...
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The Power Catechism: Correct Answers to Direct Questions Covering the Main ...

F. R. Low - Steam engineering - 1903 - 219 pages
... .o11xd'xn for top figure. 2 .oI4x d' xn " middle 3 .oiSxd'xn " bottom In thete formulae is d = diameter of shaft in inches. n = number of revolutions per minute. Torsional maximum fiber strain in pounds per sq. inch allowed in above formulae d. a) Wrought Iron-...
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Journal of the American Society of Naval Engineers, Incorporated, Volume 20

American Society of Naval Engineers - Naval architecture - 1909
...build up our power diagrams based on the formula , rr_6I>N ' CL ' where H '= shaft horsepower, 0 = torque in degrees, D = diameter of shaft in inches,...by means of a reliable and accurate torsion meter. Naturally, a mechanical engineer would employ mechanical means for the purpose in the first instance,...
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Journal of the American Society of Naval Engineers, Inc, Volume 20

American Society of Naval Engineers - Naval architecture - 1909
...formula ,., OWN where // = shaft horsepower, d = torque in degrees, D = diameter of shaft in inches, A' = number of revolutions per minute, C = constant varying...by means of a reliable and accurate torsion meter. Naturally, a mechanical engineer would employ mechanical means for the purpose in the first instance,...
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The marine steam turbine: a practical description of the Parsons marine ...

John William Major Sothern - Marine engines - 1909 - 337 pages
...for each shaft, we may proceed to build up our power diagram based on the formula в D*N 1 ~CT' where H = shaft horse-power, 6 = torque in degrees,...shaft in inches, N= number of revolutions per minute, С = constant varying with the modulus of rigidity, and L = length of shafting in inches. In this formula...
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The marine steam turbine: a practical description of the Parsons and Curtis ...

John William Major Sothern - Technology & Engineering - 1916 - 566 pages
...may proceed to build up our power diagram based on the formula where H = shaft horse-power, 0 = torque in degrees, D = diameter of shaft in inches, N= number of revolutions per minute, С = constant varying with the modulus of rigidity, and L = length of shafting in inches. In this formula...
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Practical marine engineering for marine engineers and students, with aids ...

William Frederick Durand, Charles Wilson Dyson - Technology & Engineering - 1917 - 982 pages
..."modulus of rigidity" for the shafting, the horsepower may be obtained from //. p. - where CL 9 torque in degrees, D - diameter of shaft in inches,...= constant varying with the "modulus of rigidity," L == length of shafting in inches. In order to apply this formula the "modulus of rigidity" that...
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Practical marine engineering for marine engineers and students, with aids ...

William Frederick Durand, Charles Wilson Dyson - Technology & Engineering - 1917 - 982 pages
...the true "modulus of rigidity" for the shafting, the horsepower may be obtained from HP = - where CL N = number of revolutions per minute, C = constant varying with the "modulus of rigidity," L length of shafting in inches. In order to apply this formula the "modulus of rigidity" that...
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