General and Theoretical Topics

The Review and Future of the Atom

Simplified Nuclear Physics

Approach to the Study of Nuclear Physics

Elementary Particles—an Investigation of the Fundamental Components of Matter and Energy

Odd Nucleon Effect

A Study of Binding Energies and Nuclear Reactions

The Integrated Theory of Atomic Structure Through Inductive and Deductive Reasoning

Tools of Nuclear Physics

E = MC²—Energy Equals Mass Multiplied by the Speed of Light Squared

Downfall of Parity

How to Measure the Charge of the Electron

How Atoms Are Constructed

Formation of Heavy Nuclear Particles

Millikan Oil-Drop Experiment

Nuclear Magnetic Resonance

Third Electrons in Transition-Metal Complexes

Probability in Electron Position

Stability of Radioactive Equilibria

The Electron: Measurement of Its Charge and Mass

Experimental Study of Nuclear Structure

Fourth State of Matter

Project-Observation Satellite

Creation of Antimatter

Energy Loss of Beta Particles in Lead and Aluminum

Stochastic-Radioactive-Equilibria Models

Cosmology

Controlled Thermonuclear Reaction

Electron Chemistry

Plasma-Ion Engine

Plasma Production by Gaseous Ionization

Finite Calculus and Particle Physics

Two Applications of the Plasma Discharge

Increasing the Efficiency of a Plasma Jet Suitable for Space Propulsion

Prediction of Elements 99-118

Exact Evaluation of the Charge of the Electron

Three-Dimensional Periodic Chart of Atoms

Atom Mobiles

Weight of an Atom

Determination of the Charge of an Electron Using the Millikan-Stokes Effects

Atomic-Particles Detection and Analysis

Electron-Charge Determination by Oil-Drop Method

The Mineral That May Shape Our Destiny: Uranium

A Machine to Show Radioactive Materials

The Making of Active Metals

The Extraction of Uranium from Carnotite

The Chemistry of Thorium