Key Concepts

• Commercially available quartz oscillators allow surprising accuracies in the measurement of time. Oven Controlled Crystal Oscillators of nominally 10-32 MHz are used here in a differential set-up to experimentally detect changes in local gravitation.
   
• Gravitation affects the flow of time, implying that oscillators exposed to the same change in gravitation will react similarly. If one of a pair of oscillators is shielded with an enclosure of material of high specific weight, increasing the local gravitational attraction, the resulting different measurement sensitivities could be used to detect gravitational changes. This technique is described here as a time sink.
   
• Since the formation of the second mass particle in the universe gravitational interaction in the form of a field existed. This intertwined force of matter shaped the universe and continues to exert its influence. Measurement of the gravitational force vectors involved is well developed up to a point, however not as far as field balance such as a Lagrangian situation or at the center of mass.
   
• Present experiments by the author (an effort to confirm theoretical assumptions) have led to the development of equipment to measure gravitational densities. The accumulated gravitational force vector does result in a balanced force field, but has a significant gravitational density. Time measurement's exposed to a high or low gravitational density are affected in that the flow of time accelerates or decelerates.
   
• Over the last four years, tests run with equipment and improved versions of equipment as based on quartz oscillators have indicated that the flow of time is accelerated (quartz clocks run faster) as the aforementioned gravitational density increases. Clocks placed near or within high density masses accelerate by measurable time units. Since 2007 records have been kept of more than 4500 hours of observation
   
• Interpretation of the measuring of the signal lead to the simple result that higher gravitational density accelerates the time compared to lower density fields. The physics of time dilation need to be studied further.
   
• It was attempted to detect the timing changes observed due to the motion of the sun and the moon. Stopwatch type timing of this effect of time dilation has been carried out at variable measurement intervals from 1 second to 4 minutes. The motion of the sun and the moon when traversing overhead causes changes in gravitational density and therefore affect the time.
   
• The mode of density change measurement by time dilation implemented here is therefore different to the technology used to detect random space curvature. Commercially available equipment of reasonable complexity allows sophisticated measurement of changes of time flow.
   
• Superimposed on the cyclic movements attributed to the motion of the sun and the moon are shorter term variations also affecting the timing. These short term cyclic variations are at present being studied and it is suggested that the variations can be attributed to further gravitational density changes or waves. Two types of equipment are used to monitor long time variations occurring during a day over weeks.
   
• Laboratory set ups have been investigated for the establishment of a standard unit of measure and further work in this direction is in progress.
   
• Four units of equipment were set up in a grid of three stations separated by 42 km and readings were compared. Please refer to the experimental results and map for more detail.
   
• This website will be publishing further information on density changes.