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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Page 85
... increasing the pressure. Pressures necessary for solidification are given in Table E. Solid helium can be compressed substantially by increasing the pressure. Values for the specific volume at 0CK are as shown in Table F. Table E ...
... increasing the pressure. Pressures necessary for solidification are given in Table E. Solid helium can be compressed substantially by increasing the pressure. Values for the specific volume at 0CK are as shown in Table F. Table E ...
Page 90
... near the freezing point is 87.8; it decreases with increase in temperature to about 55.6 near the boiling point. Table 1-45, THERMAL PROPERTIES OF COMMON LIQUIDS* At 1.0 Atm 90 Handbook of Tables for Applied Engineering Science.
... near the freezing point is 87.8; it decreases with increase in temperature to about 55.6 near the boiling point. Table 1-45, THERMAL PROPERTIES OF COMMON LIQUIDS* At 1.0 Atm 90 Handbook of Tables for Applied Engineering Science.
Page 95
... increase in pressure at constant temperature. Unit compressibility is less at the higher pressures, but no large amount of data is available. In the usual range of 0-100cC, compressibility is not greatly affected by temperature (see ...
... increase in pressure at constant temperature. Unit compressibility is less at the higher pressures, but no large amount of data is available. In the usual range of 0-100cC, compressibility is not greatly affected by temperature (see ...
Page 101
... increase will lower out At by the ratio 4.60/4.72, or the corrected At is 62x4.60/4.72 = 60.4. Adding At to t gives 80.4° as a second approximation. The formula can best be used in a slightly different form when the reverse calculation ...
... increase will lower out At by the ratio 4.60/4.72, or the corrected At is 62x4.60/4.72 = 60.4. Adding At to t gives 80.4° as a second approximation. The formula can best be used in a slightly different form when the reverse calculation ...
Page 134
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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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