Hi Satyavarapu Gupta,
Your paper includes a promising new solution to N body motion problems along with a fine relevant history of mass motions and locations.
First off you present frequency shifting in EM radiation. Let's see if I understand your 'EM radiation grazing near mass' by using a different perspective. A photon beam encounters a hydrogen atom in Earth's upper atmosphere. The wave structure of the photon interacts with the hydrogen wave structure, forming a more complex atom which settles lower in the atmosphere. Then another earth grazing photon combines its waves with the more complex atom adding further complexity. This continues until nitrogen, oxygen etc. are formed and the particle falls to earth. Mass is created. This collision process works better when the atom is moving toward the photon as the net motion is slower than c. It is c - u. On the other side of earth fewer interactions arise as the elements are moving away from the photons at speed u. The speed of any combination becomes c u and an atom is less likely to settle before it exits the atmosphere. This mass creation provides equilibrium as recycling occurs with the release by earth of heat and light.
Note that your close pass issue states frequency increase (red shifted), in your abstract, your introduction and cases 1 &2. This is confusing - inverted shift. The questions you answered within the paper are all about frequencies. But including photons is mostly a side extension of your Dynamic universe model and your formula 25.
I do agree with your discussion of creation of mass via extreme blue shifting of light. I also like your dynamic model for masses. You discuss mass rotation and its influence on the flow of other bodies and on the speed of light. You are able with tensors to plot the logical flow of matter via your program SITA which applies rotational drives from N number of masses to an item/group. The program must address many drive factors. You delete dark matter by including all components of N. I arrived at similar thoughts by placing two equal masses near each other. They have to rotate or will be crashed together. The rotations must all be the same - counterclockwise . Opposite rotations will crash. The universe is a counterclockwise whirling flow. We can see it in our solar system. Solar rotation drives planetary revolutions and rotations. Apparent imperfections such as Venus rotation, the moons rotation and the 90 degree tilted axis of rotation of Uranus are explained by factors such as the placement of the rotational force. A most interesting situation is the high latitude small moons of Jupiter which seem to orbit in reverse. Actually they jointly flow in a coiled path. Examining the varying distances from the sun and velocity changes keeps counterclockwise relevant. Can you process this flow near Jupiter in your program?
regards,
Paul Schroeder