Please find media kits:

for Published Research

The Physical Constants

• Measurement Quantization (Oct. 28, 2022)

• Measurement Quantization Describes the Physical Constants (Jan. 25, 2021)

Classical Mechanics

• Physical Significance of Measure

• Measurement Quantization Unites Classical and Quantum Physics

• Quantum Model of Gravity Unifies Relativistic Effects, Describes Inflation/Expansion Transition, Matches CMB Data

Cosmology

• Measurement Quantization Describes History of Universe – Quantum Inflation, Transition to Expansion, CMB Power Spectrum

• Measurement Quantization Describes Galactic Rotational Velocities, Obviates Dark Matter Conjecture

for Research Pending Peer Review

The Physical Constants

• Bounds to Measure: Physical Significance of Count Bounds to the Fundamental Measures.

• Coulomb’s Constant: Describing Coulomb’s Constant Using Only Planck Units.

• Electric Constant: Describing the Electric constant Using Only Planck Units.

• Elementary Charge: Describing Elementary Charge Using Only Planck Units.

• Fine Structure Constant: Describing the Fine Structure Constant Using Only Planck Units.

• Frames: Three Frames of Reference Prerequisite to Deriving the Physical Constants.

• Fundamental Constant: Four New Constants of Nature.

• Fundamental Measures: More Precise Expressions for the Planck Units.

• Gravitational Constant: Discrete Expressions for the Gravitational Constant Offer Improved Precision G=6.6740779428(56) 10⁻¹¹ m³/kg s².

• Hubble’s Constant: Hubble’s Constant and the Underlying Physics of Expansion.

• Cosmological Constant: Solving the Cosmological Constant Problem.

• Magnetic Constant: Describing the Magnetic Constant Using Only Planck Units.

• Newton and Planck Constants: Correlating the Newton and Planck Constants.

• Extending Physical Constants: Extending the Physical Constants to 12 Significant Digits.

• Significance of Measure: Establishing the Discreteness of Measure in the Frame of the Observer.

• Planck Constant: Planck’s Constant – Request for Redefinition with Increased Precision.

• What Defines Measure: What Defines the Fundamental Measures?

Classical Physics

• Angle/Momentum: Universe Offers Shared Value for the Measure of Angle and Momentum at the Planck Bound – 3.26239030392(48).

• Baryonic Density: Bounds to Baryonic Density.

• Baryonic/EM Difference: What is the Physical Difference Between Baryonic and Electromagnetic Phenomena?

• Blackbody Demarcation: Distance Corresponding to the Length Contraction Associated with a Measure of Blackbody Radiation.

• Charge Coupling Demarcation: Distance Corresponding to the Length Contraction Associated with a Measure of Charge Couplings.

• Dimensionality: Discrete Approach Offers Physical Confirmation: Three Spatial Dimensions.

• Elementary Charge Demarcation: Distance Corresponding to the Length Contraction Associated with a Measure of Elementary Charge.

• Equivalence: Discrete Approach to Deriving the Equivalence Principle as a Predicted Outcome.

• Fundamental Expression: Simplest Relation Between Fundamental Units of Length, Mass, and Time.

• General Relativity: Discrete Approach to the Contraction and Dilation of Measure with Respect to a Gravitational Mass.

• Gravity: Classical Approach to Discrete Gravity.

• Informativity Differential: Length Contraction Associated with Discrete Measure Resolves the Planck units Tension.

• Kinetic Energy: Classical Approach to Orbital Star Velocity Obviates Dark Matter Conjecture While Demonstrating Path of Lowest Energy.

• Metric Differential: Frames of Reference Still Misunderstood; There’s a Third Frame.

• Properties of the Atom: Properties of Atoms Shown to be a Function of Discrete Geometry.

• Planck Unit Expressions: Deriving the Planck Unit Expressions.

• Quantum Behavior: Determinism and the Foundations of Quantum Behavior.

• Singularities: Physical Approach to Demonstrating Singularities Cannot Exist.

• Spatial Curvature: Spatial Curvature Incompatible with Discrete Phenomena.

• Special Relativity: Discrete Approach to the Contraction and Dilation of Measure with Respect to Motion.

• Symmetry: Physical Significant Approach to Describing Broken Symmetry.

• Unification: Unifying Gravity with Electromagnetism G=2πɛγ.

Cosmology

• CMB Power Spectrum: Classical Description of the CMB Power Spectrum without Λ or CDM.

• Dark Energy: Dark Energy – a Geometric Phenomenon.

• Dark Matter: Discrete Approach to Star Velocities Resolves Dark Matter Phenomenon.

• Diameter/Age of Universe: Diameter & Age of the Universe as a Function of the CMB Temperature.

• Dilation of CMB Age: Time Dilation of the CMB Age Confirms 363,312 Year Quantum Epoch.

• Effective Mass: Effective Mass of a Galaxy, Star Velocity, and their Relation.

• Mass Accretion: Increasing Universal Mass.

• Mass in the Universe: Classical Description of Mass in the Universe without Λ or CDM.

• Quantization Crossover: Physical Significance of the Transition from Classical to Non-classical Behavior in the Orbits of Stars.

• Quantum Epoch: Measurements of CMB Age Confirm a 363,312 Year Quantum Epoch.

• Spatial Curvature: Support for a Universe without Curvature.