CRC Handbook of Tables for Applied Engineering ScienceCRC Press, 2019 M03 7 - 1184 pages New tables in this edition cover lasers, radiation, cryogenics, ultra-sonics, semi-conductors, high-vacuum techniques, eutectic alloys, and organic and inorganic surface coating. Another major addition is expansion of the sections on engineering materials and compos-ites, with detailed indexing by name, class and usage. The special Index of Properties allows ready comparisons with respect to single property, whether physical, chemical, electrical, radiant, mechani-cal, or thermal. The user of this book is assisted by a comprehensive index, by cross references and by numerically keyed subject headings at the top of each page. Each table is self-explanatory, with units, abbreviations, and symbols clearly defined and tabular material subdivided for easy reading. |
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Results 11-15 of 71
Page 82
... multiply by 1.8. pf = density of liquid in mol/liter. For lb/ft3 multiply by 2.493. pg = density of saturated vapor in mol/liter h = enthalpy in J/mol, above 0 K. For cal/g multiply by 0.0060. For Btu/lb, multiply by 0.0108. entropy in ...
... multiply by 1.8. pf = density of liquid in mol/liter. For lb/ft3 multiply by 2.493. pg = density of saturated vapor in mol/liter h = enthalpy in J/mol, above 0 K. For cal/g multiply by 0.0060. For Btu/lb, multiply by 0.0108. entropy in ...
Page 83
... multiply by 145.0 . To convert MN / m2 10 kg / m2 , multiply by 101 970 . The molecular weight of fluorine is 37.996 . To convert gram - mol / l to kg / mo , divide by 37.996 . for J / kg multiply J / g - mol by 26.3 . For cal / g multiply ...
... multiply by 145.0 . To convert MN / m2 10 kg / m2 , multiply by 101 970 . The molecular weight of fluorine is 37.996 . To convert gram - mol / l to kg / mo , divide by 37.996 . for J / kg multiply J / g - mol by 26.3 . For cal / g multiply ...
Page 87
... multiply value in lbf/in.2 by 0.0068948. For temperature in K, add 459.67 to value in deg F and multiply the result by 5/9. For enthalpy in J/kg, multiply value in Btu/lb by 2 324.4. For entropy in J/kg*K, multiply value in Btu/lb deg F ...
... multiply value in lbf/in.2 by 0.0068948. For temperature in K, add 459.67 to value in deg F and multiply the result by 5/9. For enthalpy in J/kg, multiply value in Btu/lb by 2 324.4. For entropy in J/kg*K, multiply value in Btu/lb deg F ...
Page 88
... multiply by 0.016018. For kg/m3 multiply by 16.018. cp = specific heat, Btu/lbm-deg R = cal/g-K. For J/kg-K multiply by 4186.8. p viscosity. For lbf-sec/ft2 = slugs/sec-ft, multiply by 10“1. For lbm/sec-ft multiply by 10“7 and by 32.174 ...
... multiply by 0.016018. For kg/m3 multiply by 16.018. cp = specific heat, Btu/lbm-deg R = cal/g-K. For J/kg-K multiply by 4186.8. p viscosity. For lbf-sec/ft2 = slugs/sec-ft, multiply by 10“1. For lbm/sec-ft multiply by 10“7 and by 32.174 ...
Page 89
... multiply values in centipoises by 10-3 . For kinematic viscosity in majs , multiply values in centistokes by 10-6 . Temperature Absolute or dynamic viscosity Kinematic viscosity Specific gravity ° C ° F Centi . poises 1b / fi sec slugs ...
... multiply values in centipoises by 10-3 . For kinematic viscosity in majs , multiply values in centistokes by 10-6 . Temperature Absolute or dynamic viscosity Kinematic viscosity Specific gravity ° C ° F Centi . poises 1b / fi sec slugs ...
Contents
ELECTRICAL SCIENCE AND RADIATION | 203 |
CHEMISTRY AND APPLICATIONS | 327 |
NUCLIDES AND NUCLEAR ENGINEERING | 407 |
ENERGY ENGINEERING AND TRANSPORT | 471 |
MECHANICS STRUCTURES AND MACHINES | 593 |
ENVIRONMENTAL AND BIOENGINEERING | 647 |
ENVIRONMENTAL PROTECTION AND HUMAN SAFETY | 707 |
COMMUNICATION AND COMPUTATION | 791 |
MEASUREMENT AND INSTRUMENTATION | 973 |
PROCESSES AND CONTROL | 1041 |
ENGINEERING ORGANIZATIONS AND PUBLISHERS | 1095 |
INDEX | 1119 |
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