Objectives

Objectives

The aim of this thesis is to challenge the prevailing cosmological model by offering a logically grounded, physically testable alternative built on wave dynamics and gravitational field mechanics. The key objectives are:

To determine the origin and purpose of dark energy and dark matter in light of recent technological advancements in observation and measurement, reassessing their necessity within a physically coherent framework.

1. To determine the number, cause, and implications of anomalies in General Relativity (GR) as revealed through observation, modelling, and empirical contradictions.
2. To determine the origin and purpose of dark energy and dark matter in light of recent technological advancements in observation and measurement, reassessing their necessity within a physically coherent framework.
3. To establish the baseline conditions of the cosmos with respect to energy states throughout all transitional phases — from latent equilibrium to plasma activation, matter formation, and radiative dissipation — thereby defining a complete energy cycle.
4. To determine the role of plasma in the production of matter and the influence of hydrogen density in the formation of structures, examining its potential as a governing parameter in cosmic organization and transformation.
5. To determine the cause and nature of black holes and their role in maintaining equilibrium within the energy cycle.
6. To determine the cause and nature of redshift and its implications in assessing the distance and age of emitting bodies.
7. To determine whether current cosmological theories provide sufficient cause-and-effect logic, and whether a revision of foundational principles would improve the accuracy and coherence of predictions.
8. To compare audited observations with the predicted phenomena of General Relativity, identifying areas of convergence, divergence, and potential model correction