## An Introduction to Gravity Modification: A Guide to Using Laithwaite's and Podkletnov's Experiments and the Physics of Forces for Empirical ResultsAn Introduction to Gravity Modification, Second Edition is the result of a 12-year (1999-2011) study into the theoretical and technological feasibility of gravity modification, that presents the new physics of forces by replacing relativistic, quantum and string theories with process models. Gravity, electromagnetism and mechanical forces are unified by Ni fields, and obey a common equation g = (tau)c DEGREES2. Gravity modification is defined as the modification of the strength and direction of the gravitational acceleration without the use of mass as the primary source of this modification, in local space time. It consists of field modulation and field vectoring. Field modulation is the ability to attenuate or amplify a force field. Field vectoring is the ability to change the direction of this force field . This book reaches out to a wider audience, and not just to the theoretical physicist; to engineers and technologist who have the funding to experiment; just as Arno Penzias and Robert Woodrow Wilson experimented with the Holmdel Horn Antenna and discovered the microwave background radiation. The mathematics is easier than that taught in theoretical physics and therefore accessible to a wider audience such as these engineers and technolog |

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Contents

17 | |

39 | |

47 | |

57 | |

The Laithwaite Effect | 67 |

Mathematics of Frames of Reference | 85 |

Continuity of Frames of Reference | 105 |

Spatial Systems | 135 |

New Methods for Force and Momentum | 227 |

Properties of ShapeMotion Duality | 259 |

Momentum Exchange | 283 |

The NonInertia Field Effect | 299 |

Force as a Field Effect | 331 |

Reverse Engineering Podkletnov | 365 |

NonLocal Properties of Nature | 397 |

Force Field Engine Design Lessons | 463 |

### Other editions - View all

An Introduction to Gravity Modification: A Guide to Using Laithwaite's and ... Benjamin T. Solomon No preview available - 2008 |

### Common terms and phrases

4-dimensional asymmetrical axis center of mass Chapter collision component coordinate system dielectric constant dimensions disk distance electric and magnetic electric field electromagnetic exists experimental experiments ﬁeld Field Effect Field Model field strength Figure force field engine frame of reference function galaxy gravitational acceleration gravitational field gravity modification gravity shielding gyroscopic horizontal inertia Inference interaction interstellar kenos Laithwaite Effect Lorentz-FitzGerald transformations magnetic field mass distribution Maxwell Speed Distribution momentum exchange nanowire non-inertia field non-linear Note numerical model orthogonal parameters particle particle’s photon frequency Photon Probabilities physics Podkletnov’s present probabilistic probability distribution quantum entanglement radial time dilation radius relationship relative velocities requires respect rotation shape shape-motion duality shielding shows Solomon spacetime kenos spatial probability field spin string theories subspace kenos suggest superconducting superconducting disc surface Temporal Reversibility tion transformation operator Unison Axiom Universe Var-Gamma vector vertical virtual particles wave wavelength weight loss Wheel x-axis