Physical Rosetta Tablet
The matter & antimatter objects have symmetrical
characteristics.
The physical
characteristics of "matter" in a matter world are the same as
"antimatter" in an antimatter world except for charges of the
elements. Matter elements gain or lose electrons that are negatively
charged; and antimatter elements can gain or lose positrons that are positively
charged. Matter and antimatter objects take the same forms: air,
liquids, solids or plasma. The mass of matter and antimatter objects are the
same. For example, oxygen & antioxygen molecules have the same
mass. Because symmetry exists between matter and antimatter, the
following information and knowledge about matter applies to antimatter.
| Basic
Constants, Units and Conversion Factors: |
- Fundamental
Physical Constants, Standard Atomic Weighs, Atomic Masses and Abundances,
Electron Configuration of
Neutral Atoms in the Ground State, Conversion of Temperatures,
International System of Units,
-
Conversion Factors: Temperatures,
Energy, Pressure, Thermal Conductivity, & Electrical Resistivity,
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Chemical Kinetics, Ionizing
Radiation, & Values of the Gas Constants in Different Unit
Systems
|
| Symbols, Terminology and
Nomenclature |
- Symbols and Terminology for Physical and
Chemical Quantities, Nomenclatures of Chemical Compounds, Nomenclature
for Inorganic Ions and Legends, Organic Constituents Groups and Ring
Systems, Scientific Abbreviations and Symbols, Greek, Russian and Hebrew
Alphabets, and Definitions of Scientific Terms.
|
| Properties of the Elements and Inorganic Compounds |
- Elements: Physical Constants of
Inorganic Compounds, Synonym Index of Inorganic Compounds, CAS Registry
Number Index of Inorganic Compounds, Physical Properties of Rare Earth
Metals, Melting, Boiling, and Critical Temperature of Elements, Heat
Capacity, Vapor Pressure of Metallic Elements,
Density of Molten Elements and Representative Salts, Magnetic
Susceptibility of Elements and Inorganic Compounds, Index of Refection
of Inorganic Liquids, Physical and Optical Properties of Minerals,
& Crystallographic Data of Minerals.
|
| Fluid
Properties |
- Properties of Gases: Thermodynamic
Properties of Air, Virial Coefficients, Van der Waals Constants, Mean
Free Path, Data for Vapor Pressure Calibration, Properties of Helium,
Halocarbon Refrigerants, Permittivity, Viscosity, Thermal
Conductivity, & Diffusion,
- Properties of Water: Enthalpy, Thermal
Conductivity, Density, Ice & Supercooled Water, Vapor Pressure,
Melting & Boiling Points, Permittivity, Diffusion of Gas in Water
- Properties of Fluids: Thermo Physical Properties,
Vapor Pressure, Enthalpy of Vaporization, Enthalpy of Fusion, Pressure
& Temperature Dependence of Liquids, Sublimation Pressure,
Properties of Cryogenic Fluids, Density and Specific Volume of
Mercury, Thermal Properties of Mercury, Surface Tension, Permittivity,
Viscosity, Thermal Conductivity, & Diffusion
Coefficients,
|
| Atomic, Molecular
and Optical |
- Line Spectra of Elements, NIST Atomic Transition
Probability Tables, Electron Affinities/Position Affinities, Atomic
and Molecular Polarizabilities, Ionization Potential of Atoms and
Atomic Ions, Ionization Energies of Gas-Phase Molecules, X-ray Atomic
Levels, Electron/Positron Binding Energies of the Elements, Natural
Width of X-Ray Lines, Photon Attenuation Coefficient, Classification
of Electromagnetic Radiation, Black Body Radiation, Characteristics of
Infrared Detectors, Refractive Index and Transmittance of Representative
Glasses, Index of Refection of Water, Liquids for Calibration
Purposes, & Air, Characteristics of Laser Sources, Infrared Laser
Frequencies, Infrared and Far Infrared Absorption Frequency Standards
|
| Properties of Solids |
- Techniques for Materials
Characterization, Symmetry of Crystals, Ionic Radii in Crystals, Polarizability
of Atoms and Ions in Solids, Crystal Structures and Lattice Parameters
of Allotropes of Elements, Lattice Energies, Madelung Constant and
Crystal Lattice Energy, Elastic Constants of Single Crystals,
Electrical Resistivity of Pure Metals, Electrical Resistivity of Select
Alloys , Permittivity of (Dielectric Constant) Inorganic Solids, Curie
Temperature of Selected Ferroelectrics Crystals, Properties of
Antiferroelectic Crystals, Dielectric Constants of Glasses, Properties
of Superconductors, High Temperature Superconductors, Organic Superconductors,
Prosperities of Semiconductors, Diffusion Data for Semiconductors, Properties
of Magnetic Material, Organic Magnets, Electron/Positron Work Function
of Elements, Secondary Electron/Positron Emission, Optical Properties
of Metals and Semiconductor, Elasto-optic, Electro-optic, and
Magneto-optic Constants, Nonlinear Optimal Constants, Phase Diagrams,
Heat Capacity of Selected Solids, Thermal and Physical Properties of
Pure Metals, Thermal Conductivity of Materials Semiconductors, Alloys,
Crystalline Dielectrics, Ceramics, Other Insulating Materials, and
Glasses., Commercial Metals and Alloys and Hardness of Mineral and
Ceramics
|
| Geophysical, Astronomy
and |
- Astronomical Constants, Properties of the
Solar System, Satellites of the Planets, Mass, Dimensions and Other
Parameters of the Earth, Geological Time Scale, Acceleration Due to
Gravity, Density , Pressure, and Gravity of Function of Depth within
the Earth, Ocean Pressure ad a Function of Depth and Latitude, Properties
of Seawater, Abundance of Elements in the Earth's Crust and in the
Sea, Soar Spectral Irradiance, Geographical and Seasonal Variation in
the Solar Radiation, Infrared Absorption by the Earth's Atmosphere, Global
Temperature Trend, Atmospheric Electricity, Speed of Sound, Attenuation of Speed of Sound in Air, and Musical Scales.
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