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. |
From inside the book
Results 6-10 of 75
Page 95
... given here for the isothermal compressibility. The compressibility of concentrated water solutions is ordinarily lower than that of pure water. Compressibility of liquified gases is of about the same order of magnitude as that of other ...
... given here for the isothermal compressibility. The compressibility of concentrated water solutions is ordinarily lower than that of pure water. Compressibility of liquified gases is of about the same order of magnitude as that of other ...
Page 99
... given proportions. Boiling points, °C A No. Component A Percent of A Component B Percent of B B Azeotrope 1 2 3 4 5 Acetic acid Acetic acid Acetic acid Acetone Acetone 3.0 2.0 58.5 88.5 33.0 Water Benzene Chlorobenzene Water Carbon ...
... given proportions. Boiling points, °C A No. Component A Percent of A Component B Percent of B B Azeotrope 1 2 3 4 5 Acetic acid Acetic acid Acetic acid Acetone Acetone 3.0 2.0 58.5 88.5 33.0 Water Benzene Chlorobenzene Water Carbon ...
Page 101
... given temperature, lower than the normal boiling point. 2.8808 —log p = <M/. 273.1 + /-.15A/. Example 2. Alcohol boils at 78.4°C. What is its vapor pressure at 20°C? Substitute in equation 2 2.8808 —log p = 6.06x58.4 293.1-(.15x58.4) ...
... given temperature, lower than the normal boiling point. 2.8808 —log p = <M/. 273.1 + /-.15A/. Example 2. Alcohol boils at 78.4°C. What is its vapor pressure at 20°C? Substitute in equation 2 2.8808 —log p = 6.06x58.4 293.1-(.15x58.4) ...
Page 122
You have reached your viewing limit for this book.
You have reached your viewing limit for this book.
Page 131
You have reached your viewing limit for this book.
You have reached your viewing limit for this book.
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 |
Other editions - View all
Common terms and phrases
acid alcohol alloys Aluminum applications approximately atmosphere Atomic average Carbon Chemical chloride coefficient common Company compounds concentration conductivity constant Continued CONVERSION Critical deg F density Department effects Electric Electronics elements emission energy Engineering Excellent factor flow frequency fuel gases given Glass gray Half-life Handbook inches increase industrial iron Laser light limits liquid mass materials maximum mean Measurement Metals meter multiply Name neutrons Note oxide percent Phys Physics plastic Poor pressure PROPERTIES Protection psia radiation range ratio REFERENCES REFRIGERANT resins resistance Rubber solid sound Specific heat Specific heat ratio Standard steel strength surface Table temperature Thermal Typical units values Vapor various viscosity volume weight