spectrum and some with a red shifted spectrum coming from the same galaxy. The result is that the observed spectrum would be blurred instead of the very narrow line that one might expect to see if these things are not considered. In fact this is actually what is seen in observations. It is only a blurred line instead of wide variations because the planets generally travel around the galactic center at relatively low speeds compared to the speed of light, so the red and blue shifts generated by their motions are relatively small. As an example, the speed of the earth's travel around the milky way galaxy is estimated to be only about 1/1300 the speed of light or about 143 miles per second compared to light's travel speed of about 186,000 miles per second. A couple of articles that give some of this information from man's viewpoint are: https://en.wikipedia.org/wiki/Galactic_year and https://www.physicsforums.com/threads/red-blue-shifts-and-stellar-rotation.242358/. If you could get a good enough resolution to see both edges of the galaxy, you would see red shifted light coming from the side of the galaxy that contained the stars that were traveling away from you and blue shifted light coming from the side that contained the stars that were traveling toward you. All galaxies that were viewed from above or below, so that you could see the whole top side or the whole bottom side would not appear to be blue or red shifted at all. If you were looking at a cluster of galaxies that was rotating in a way that is similar to the way galaxies rotate, so that you were looking at an edge of the cluster it could extend over a wider area of space, so that you could see the red shifted galaxies that were traveling away from you on one side of the edge and see blue shifted galaxies on the other side of the edge of the cluster. If you started at the blue shifted side of the galaxy cluster and moved your sensor along the edge of the cluster toward the red shifted side, you would see the blue shifting become less and less as you proceeded toward the center until it disappeared completely near the center. At the center there would not be any red or blue shifting since the stars would all be moving parallel to you. Then as you moved far enough from the center you would see red shifting that would increase more and more as you moved your sensor toward the red shifted side of the cluster. Again, if you looked at the cluster from the top or bottom, you would not see any shifting at all. This would create red and blue shifted areas in the sky that should be readily detectable. This effect would create an equal amount of both types of areas. Generally there appears to be more red shifting than blue shifting in actual observations. The amount of displacement of the spectral lines is also much greater for this red shifting than is observed for the effects described above. The red shifting seems to be greater with galaxies that are a greater distance away from us than it is for those that are closer to us. Man does not yet understand the existence of sub-energy particles, but their existence readily explains the red shifting increase with distance without the need for Doppler shifting. This is because although energy photons do not usually interact with sub-energy particles, the probability of such interactions is not zero. This means that when an energy photon travels for a long time over a long distance, it becomes probable that such an interaction will occur. Since the energy photon contains much more energy (motion) in it than the amount contained by the sub-energy particle, an interaction between them transfers energy (motion) from the energy photon into the sub-energy particle. This would normally slow the energy photon's linear motion down to less than the speed of light, but instead the amount of motion needed to maintain the energy photon's linear motion at the speed of light is transferred into its linear motion from the energy photon's motion that generates the photon's frequency, wavelength, and dynamic mass effects. This motion reduction results in a slight reduction in the photon's frequency causing it to be slightly red shifted. The farther the photon travels, the greater will be the number of such interactions, which results in a greater red shift in the photon. The energy that is transferred to the sub-energy particles can be enough to change some of the sub-energy particles into relatively low frequency energy photons and these photons would over time build up as a background radiation level in space.
I can't go into detail about it at this time, but the increase in rotational velocities of stars in a galaxy as the distance from the center of the galaxy increases has much to do with large scale sub-energy field structures. It is somewhat similar to the locking of matter particles together in the planet earth, so that they all rotate together even though those near the center of the earth rotate very slowly and may only travel a few inches in a day while the particles near the outside at the equator travel about 24,000 miles each day around the center of the axis of the earth. This is because the particles are bound together by their sub-energy field structures. A similar large scale sub-energy field structure with input and output flow structures can exist in a galaxy. These can be seen as the arms in spiral galaxies. They tend to control the speed of objects rotating in the various sub-energy cylinders in a manner that is somewhat similar to the way that the velocities of electrons are controlled by the motions of the sub-energy particles in the atom's high density sub-energy spheres. The main difference is that the sub-energy fields in a spiral galaxy are in more of a cylindrical form due to the primarily two dimensional rotation of the galaxy while the three dimensional cyclical motion of a matter particle produces somewhat spherical sub-energy field structures. Barred galaxies are interesting because they are generally composed of two or three dense mass structures linked by their sub-energy field inputs and outputs. In the case of a two mass system, the sub-energy output of one mass is aligned and linked to the input of the other mass. In the case of the three mass structures the output of one of the outside masses is linked to the input of the central mass structure and the output of the central mass is linked to the input of the other outside mass structure. The very strong localized linear sub-energy fields between the masses can create instabilities in the gas clouds that they pass through and thereby can generate many stars in and near their paths. I find it interesting that in the New Testament Scriptures God says "Because that which may be known of God is manifest in them; for God hath shewed it unto them. For the invisible things of him from the creation of the world are clearly seen, being understood by the things that are made, even his eternal power and Godhead; so they are without excuse. This tells us two very important things. First is that the invisible things can be understood by looking at likenesses of them that are recorded in the things that we can see. The second is that God has recorded in the structure of the world likenesses or images of his own structure, at least as much of it as he has given that we may know about it, in the structure of the world also. I have already mentioned in my other comments on this page that God says that he has three parts, the Father, the son or Word, and the Holy Ghost or body and that the sub-energy fields, the energy photons and the matter particles are images of that structure that are recorded in the creation. The sub-energy particles can exist by themselves as a likeness that God the Father can exist by himself without being joined to any other entity. An energy photon, on the other hand is a composite of a sub-energy particle that gives it its linear motion in some direction and another motion that gives it its frequency, wavelength, and dynamic mass effects. This is a likeness of the Father and the son joined together as one. The matter particle contains a sub-energy particle that gives it its linear motion at the speed of light, which is joined to the motion that gives it its frequency, wavelength, and dynamic mass effects, and an additional motion that continually modifies its linear direction so that it travels in a curved enclosed path instead of a straight line and is also mostly responsible for its static mass effect. When you look closer at matter particles, you can see that there is also a similar three part structure in their composition. First there are particles composed of one part such as the electron (leptons), those composed of two parts called quarks/antiquarks (mesons), and those that are composed of three parts or quarks (baryons). Note that the sub-energy particles and some of the leptons such as the electron are used in the long lasting structures such as atoms that were made. The energy photons and the mesons are generally mainly used as mediators of state transitions or transmissions of motion or information between the long lasting structural elements. The matter particles and within them the baryons such as the protons and neutrons are used as the main backbones of the long lasting structures in the creation. Once you understand these things it is very interesting to me to see that when you look at very large things such as galaxies you can see galaxies with a single central large mass, those with two large masses that are joined together by very large scale sub-energy fields that create a bar of stars in the field between them, and those that also have a third large mass in the middle between the two outer masses with all three of the masses joined together by their sub-energy fields. You can also see the extension of the other side of the outer masses' fields in the form of the galaxies' arms. So you have recorded in very large scale objects that can be easily seen by anyone who knows how to make large enough telescopes, images in a two dimensional form of the three dimensional structure of very small objects that cannot yet be seen by man here such as the different types of matter particles, etc. It is just one more of many such examples that what God said is true. Of course two thousand years ago when the scriptures were written man did not have the ability to see such things because the telescope had not yet been invented that would allow them to be seen by man. This is more evidence that the scriptures could not have been written by man. That is all I can tell you about that at this time though. An article that gives some information on what rotational velocities are expected and what velocities are actually observed is at: https://en.wikipedia.org/wiki/Galaxy_rotation_curve. Sub-energy field structures also exist between galaxies in a galaxy cluster. An article that gives some information on this is at: https://phys.org/news/2015-03-galaxy-clusters-collidedark-mystery.html. It shows that in collisions between galaxy clusters, the dark matter in one cluster seems to just pass through the dark matter from the other cluster that it is colliding with. This is, of course, because the sub-energy fields tend to just combine with each other, etc.
In general, the main thing that I find missing from your paper is an explanation of what is happening and how things work to create the output results of the equations from the input conditions that are given as part of the equations. As an example, In the equation E=IR, I can say that E is the electromotive force that pushes the electrons through the circuit, I is the amount of electrons that pass a given point in the circuit in a specific amount of time and R is the resistance to the flow of electrons that is present in the circuit. I can go further and explain that the pressure is the result of a buildup of electrons in an area that repel each other and I could go into the things that together generate the observed resistance to the flow of electrons in the circuit, etc. These kinds of explanations can give an easily understood demonstration of how and why the equations work the way that they do. You did do better than some that I have seen in that at least for some of the equations that you have in the paper you do give meanings of many of the terms in those equations, but for some unknown reason you gave no explanation of the meanings of the letters and other symbols in the linear tensor equation or how they work that you say is the basis of all the equations in your theory.
I have noticed that you talk about X-rays as though they are all blue shifted because of their high frequency. Blue and red shifting are not, however, based on the highness or lowness of the frequency of the photon's radiation in itself. When heated, each element gives off photons at specific frequencies. In general, the higher the temperature, the higher is the frequency of the photons that are emitted in their specific spectral frequency series distributions. When the spectral frequency bands of an element such as hydrogen are observed, but all of the photon's frequencies in that spectrum are of lower frequencies than they would normally be, they are said to be red shifted. If they are of higher frequencies than would normally be the case, they are said to be blue shifted. An x-ray that is part of such a spectral series can thus be either red or blue shifted depending on whether its frequency is lower or higher than would normally be the case for that spectral series of emission for that element when it is not Doppler shifted. Of course, it could also have the normal frequencies in that spectral series and would then be neither red nor blue shifted.
The paper says that many current problems are solved, but it does not explain what those problems are and how they are solved by the theory and simulation.
It is good that you see that there is no need for a spatial time dimension. We live in a motion continuum and time is just a method of comparing relative motions, which is only needed because there is a wide range of possible motion amplitudes (speeds) and any given motion can possess any particular motion level within that range. It is also good that you see that matter does not need to be and isn't generated by or from empty space.
You say that the universe is finite and closed and is not expanding, etc. This means that it must have a specific total size. Can your theory predict what that size is and if so, what is it? In your theory, is there anything at the boundary of the universe that reflects energy photons back into the universe if they get to the boundary or do you just believe that the UGF will somehow bend the path of the photon enough that it will not reach the boundary? If you believe that its path is just bent back by the UGF, do you believe that there is a large empty area around the inside of the boundary that would allow a large distance for the photons to be acted on by the UGF in order to accomplish the needed bending? If not, it would seem possible for a star to be very near the boundary and if it emitted a photon toward the boundary, the photon could pass the boundary before the UGF could bend its path away adequately.
You say that using Newtonian physics your theory can explain most of the cosmological phenomena. This implies that there are some things that it can't explain. Can you give examples of any such things that it can't explain?
You say that in your theory there are no collisions, but in the observable universe things of all sizes from matter particles to galaxies, etc. are actually observed to collide with each other. It would seem that your theory does not completely conform to observed reality in this respect.
You say that absolute rest frame of reference is not necessary, but if the universe is finite, then an absolute frame of reference must be possible in relation to its boundaries.
You say that in your model masses when distributed heterogeneously experience repulsive forces resulting from UGF acting upon the particular mass. How does that work?
You say that the universe is an expanding universe with blue shifted galaxies present in it. Then you say it is a closed finite universe. Does this mean that it has a fixed maximum size, but it has not yet reached that size and when it does it will stop expanding and be static in size?
I didn't go over the sections that covered the graphs because the graphs were not present in the paper. In section 5.6, the first paragraph is just one line long. The third sentence in the second paragraph did not stop and do a carriage return at the end of the column, but continued to print all the way across the page and the end of it was not printed because it would have been beyond the side border of the page.
I would like to see more conceptual details as to how you believe that the universe is constructed that led you to choose the several thousand equations that you say are used in your simulation and how and why they are linked together in the way that they are in your simulation program to produce the results that you obtain by that construction. It should start from a conceptual description of the most basic structures that are present in the universe such as what fields, energy photons, and matter particles are composed of and how they work, both internally and in interactions between them. Then higher level structures such as atoms and molecules can be described. As you go up in complexity of structures you would then be in a good position to understand how galaxies and galaxy clusters, etc. work because you would have followed the path of structuring from the beginning structures from which all things are made through all of the hierarchical structural levels, so that when you get to the top, it all fits together properly.
Your comments on June 6
9. Why do you say that LIGO's experiments cannot be repeated? Even though the LIGO systems are very large and expensive, it seems to me that another system could be constructed and then run at the same time that the LIGO systems are running to check their accuracy, etc. Once you get out of the size and/or speed range that man can directly observe, you have to design and build mechanisms of one sort or another to allow you to observe such things in an indirect manner. An optical telescope is a designed mechanism that allows man to observe things that are too far away and, therefore, appear too small and with too low a light intensity level for man to be able to directly observe them. A telescope is designed to overcome these problems by the use of well understood fundamental concepts. In an optical telescope, the well-known observational data that shows that light is diffracted when it passes from one medium to another is used to design clear glass lenses with surfaces that are curved in such a way as to create a magnification of the thing that would be too small to see directly. At the same time the well-known observational data that shows that the brightness of an image can be increased by using a larger lens that gathers input light from a larger area and then concentrates it into a smaller image area can be used to make the image bright enough to be observed. The design does not generate the observed output result. It only allows something that already exists to be readily observed. The LIGO interferometer likewise does not generate the observed very small motions that it can detect. It only allows them to be observed by man. Before it went into operation, it was not known that such small motions would actually be observed. The other problem, of course, is that once they were observed the next question is what caused them? Unless a way is devised to trace them back to their source, it is a matter of the interpretation of what is believed to be their source. Currently man desires to believe that they are gravity waves, but this cannot be confirmed without a way to retrace the motions to their original source location of gravity variation.
I already gave you a way that the upshifting could be observed by spectrographically observing light coming from stars that appeared very close to the sun's position during a total eclipse of the sun so that the light from those stars would pass very close to the sun before it is observed on the earth and then later observing the same stars spectrographically when the earth is between those stars and the sun, so that the light from the stars would not then pass closely by the sun on its way to earth. If the upshifting really exists, the light that passes very close to the sun should be blue shifted by the sun's gravity field. I was able to observe the total eclipse, but my camera equipment was not good enough to get good pictures of it and I don't have man's spectrographic equipment to allow me to analyze it in that way either.
I cannot go into the structure of gravity fields at this time.
10. In Newton's light photon corpuscular theory does he say what the light photon corpuscle is made or composed of and if so, what is the substance of its composition? His equations may describe the observational behavior of the photon in its external interactions with other entities, but they cannot describe the photon's internal substance or the way that its internal substance is structured or the internal only operations of that structure. If you know these things, you could, of course, possibly generate math equations that would describe them and you would then have an understanding that would go much deeper and give you the ability to fully understand why his equations that describe the photon's external interactions work the way that they do.
I believe that the M mass in the equation E=MC^2 usually is only used to describe what is called the static or rest mass of matter particles. It probably could also be used to describe the dynamic mass effect of an energy photon, but I don't think that it is normally used that way. The dynamic mass effect of an energy photon would likely be considered to be part of its energy based on its frequency and/or wavelength, etc. (part of the E in the equation). In a way you are right that no mass is truly at rest because all mass effects are caused by motions and for the most part they are the resultant output of angular motions. On the other hand, although the energy photon that is contained in the cyclically enclosed curved 3 dimensional path that we call a matter particle is continually traveling around that path at about the speed of light, the total complete path itself can be at rest in relation to the path of another matter particle. This is what is actually being referred to as static or rest mass. If you then apply motion to the path of one of the particles that are at rest in relation to each other, such that the particle's path begins to move in relation to the other particle's path, that added motion is called kinetic motion and it also exhibits its own kinetic mass effect. The E the M and the C in the equation all are measurements of motions of one type or another and the equation as a whole is just giving the relationships between those different types of motions.
11. Answered in 10. above.
12. A change in motion does actually occur. It is just a very small change, such that the amount of change due to the upshifting of a single photon would not be measurable. The problem is that every photon emitted from every star would need to be upshifted to have any chance of maintaining the same total number of free protons that could then be fused into new helium atoms. This means that on the average each star would have to upshift as many photons as it emits. The upshifting of so many photons by a star would greatly decrease the star's gravity field in the same way that the fusion of four protons into a single helium atom would not have a measurable effect in counteracting the pull of gravity of the star to keep the star from contracting, but when a very large number of helium atoms are produced by fusion in a short time it can result in enough total force to create a balance against the force of gravity in the star to stop its contraction. You would actually have to transfer much more energy to the photons during the upshifting than was emitted in the photons that were emitted during the fusion process. Each photon would have to be upshifted to about 63 times the amount of energy that was emitted during the fusion of the four protons into a helium atom. This is because when the four protons are fused into a helium atom less than 60 MEV of energy is emitted in the form of energy photons. Most of the mass energy of the original four protons is still contained in the four particles (two protons and two neutrons) that make up the helium atom. About 2.6 MEV of the energy from the fusion reaction is used to convert two of the protons into neutrons, which are more massive than protons. That energy is, of course, also still tied up in the helium atom. During the fusion of four protons into a helium atom the four protons are locked up in that atom and cannot be used to fuse more helium atoms. Each proton contains about 938 MEV, so four of them together contain 938 X 4 = 3752 MEV. To replace these four protons by upshifting, the about 60 MEV photon that was emitted during the fusion of the helium atom would have to be upshifted to at least 3752 MEV in order to allow it to produce four new protons that could then be fused in a star to keep the process going. 3752 / 60 = about a 63 times increase in energy. All of this energy would have to come from the star's gravity field. It is easy to see that this would not be sustainable because in a relatively short time the gravity field would be decreased to the point that it would no longer be able to keep the star from exploding due to the energy generated by the fusion process. Your theory is based on the concept that fusion changes the matter into energy photons and then the energy photons are changed back into matter in the upshifting. In reality there is only a very small amount of mass changed into energy photons and that mass does not come from the conversion of protons into energy photons, but it instead comes from a decrease in the external sub-energy field of the helium atom. This is equivalent to a small decrease of about 14 MEV in the external sub-energy field of each of the four particles that make up the nucleus of the atom. The about 938 - 14 = 924 MEV of each of the two protons and about 925 MEV of each of the two neutrons for a total of about 3698 MEV remains in the star in the helium atom that was formed by the fusion process. Over time the helium atoms would build up in the star and get in between the free protons and ultimately prevent the protons from being able to fuse in large enough numbers. The star would then begin to cool down and would no longer be able to counteract the pull of gravity. It would then collapse causing a supernova type explosion. Over time the helium would build up in the universe and would be the element of greatest quantity. Observations show that helium is in reality of low quantity compared to hydrogen, etc. This would only be the case if the universe began fairly recently. This is a simplified example not covering that in large stars the helium could fuse into higher elements up to iron, etc., but the buildup of more and more matter in the universe would take place and ultimately cause all star production and operation to cease.
13. I am not sure what part of your theory that you are referring to here and what prediction it is making that you are talking about here.
14. I also hope that your land purchase works well for you.
15. I am glad that you agree.
16. Your theory is based on motions. I have not yet seen your concepts of the structure and workings of matter particles, energy photons, and fields, etc. Have you developed such concepts and if so, what are they?
17. I am glad that you agree.
18. You seem to understand this very well.
19. If you really understand this you are doing better than most I have seen so far in this world. My papers on this site's contests give some more details.
20. See 19. above.
21. See 19. above.
22. See 19. above.
23. See 19. above.
24. You are welcome.
25. Thank you.
26. Thank you again.
27. That is right. This means two very important things.
1. When a star fuses the elements up to iron, the fusion process frees more energy than is required to complete the fusion process, so this can aid the star by helping to offset the pull of gravity that is trying to make the star collapse upon itself. If the star tries to fuse iron, however, it must add some of the star's energy to the reaction to allow it to do so. This works against the star by causing it to cool down by the amount of energy that was drained from it to use to fuse the iron. This breaks the balance between the inward pull of gravity and the temperature expansion from the fusion reaction of the elements lighter than iron. The pull of gravity is then greater than the thermal expansion and the star will then collapse, usually ending in a super nova explosion, etc. that destroys the star.
2. Note that the fusion of protons into a helium atom frees a large amount of energy per nucleon as can be seen on the chart as the large vertical distance from the hydrogen atom to the helium atom while the total energy freed by all of the other fusion reactions that create the other elements up to iron is a much smaller vertical distance. This means that most of a star's free energy comes from the fusion of protons into helium atoms. Also note that the largest elements sit at about the 7.5 MEV point on the chart. This means that fission of the heavier atoms into lower mass atoms cannot add a lot of free energy to the star either. There is just no source of energy in the star that could produce the amount of energy that would be needed to break the helium atoms back down into individual protons that could then be fused again.
28. I am glad you agree.
29. We both agree to that.
30. I will wait for your contact then.
31. Ok.
32. Thank you.
33. It is good that you agree.
34. Thank you. I hope you get the chance.
To give an idea of the kind of modeling that would be needed, first consider the need to map the positions and the direction of travel at each position of the photon that is contained within a basic matter particle as it travels around its curved, 3 dimensional, enclosed, cyclically repetitive path. A complete map would contain an infinite number of positions, but you would not need to include all of them. This is because observations show that an interaction between two particles that contain high kinetic energy can only yield a given number of possible outcomes. This means that a given interaction outcome occurs in a range of positions with specific relative directions of travel. The range may be a series of consecutive positions and their associated directions or it may be more than one such set of positions. The needed resolution must, therefore, only be adequate to find some of the positions in each range sector. As an example, suppose that an interaction between two matter particles can cause one of four possible outcomes and that the first outcome has a 25 percent probability of occurring, the second outcome has a 50 percent probability of occurrence, the third has a 20 percent occurrence probability and the fourth outcome has a 5 percent probability. If you map these probabilities as continuous segments of the particle's enclosed path, it would seem that you would only need to divide the path into, let's say, 40 positions, since that would give you one position for every 2 ½ percent of the path. If each outcome's path segment is continuous, you would be correct, but suppose that the 5 percent probability segment is actually made up of 5 sub segments that are each 1 percent of the total path size. A 2 ½ percent resolution would not be adequate for that case. It is, therefore, usually best to use the highest resolution that is practical given the availability of resources, etc. Next you must consider that an interaction between 2 matter particles is a joining of their paths either completely or of some amount of partial overlap. During this complete or partial overlap of their structural paths, an intersection of their structural motions that travel their paths may or may not occur. The motions may not intersect, in which case the particles just pass through each other with no interaction taking place. At very high kinetic motions, this can be the most likely outcome. If they do intersect, the possible outcome is greatly determined by their relative angle of intersection. The map of all possible intersection angles is very important to develop to allow understanding the resultant actions that generate the individual possible outcomes.
The other main variable that must be considered is the state or condition of the motion that generates the wave effects of the photons that are traveling in the curved paths of the matter particles at the point of their intersection. This motion travels back and forth in the fourth dimension. It goes from one end of the dimension to the other then interacts with the end of the dimension, which causes its direction to reverse in the fourth dimension, so that it then travels to the other end of the dimension where it interacts with that end causing direction reversal again. This cycle continues as long as any motion is contained in the photon's fourth dimensional structure. When the fourth dimensional motion is at one end or the other of the fourth dimension, it exists completely outside of our three dimensional world and it, therefore, cannot contribute any angular motion to an interaction between that photon and any other entity that interacts with it. Since most interaction outcomes are the result of angular motion intersections, it is very unlikely that the matter particle will generate any outcomes from an intersection that occurs when the fourth dimensional motion is completely outside of our world. As it begins to travel away from the end of the dimension the motion begins to enter our three dimensional world. At this point the amount of angular motion that it can contribute to an interaction depends on the percentage of it that exists in our world. The maximum motion contribution during an interaction occurs when it is completely in our world. As it travels away from this center position toward the other end of the dimension, the amount of motion that it can contribute to an interaction decreases again until it reaches zero effect when it is at the other end of the dimension. It then repeats the above mentioned effects as it travels in the other direction in the fourth dimension except that any motion that it contributes to an interaction is in the opposite direction. As a result, each point on the map of all possible intersection angles must also contain the map of all possible states of the fourth dimensional motions of both particles involved. Once this is done you can then map all of the positions on that map to the map of all the possible observed outcomes and determine whether there are yet any possible outcomes that have not yet been observed, etc. I have presented this information to you in a map form because it seems that such a form might be easier for you to simulate on man's current computers. In this way I have presented the other variables in respect to their variable spatial coordinates. You could, of course, choose one of the other variables and tie the others to it, but man is more connected by his vision structure to the spatial structure, so it gives a more easily understood image to present it that way. Your job would be to build the program that would tie all of the variables together, such that any given set of input variables would give an output of the resultant actual outcome that would occur from an interaction that occurred with that set of input variables.
I hope that gives you enough guidance to begin, if you chose to do so. If you need more information you can ask and I will see if I can give it to you.
35. I am glad that you are interested in the work that is required. It is also good that you are interested in the benefits to all man and not just yourself. It is not bad or wrong to hope for and rejoice in receiving recognition if it comes. First it will not likely come unless others come to understand that what you are giving them is of great value to them, so it would be a sign that you are getting through to them with understanding that can then be used both to make life better for all and also to gain further understanding to continue a progression of advancement that will open up many other future paths of advancement. I must admit that part of the reason that I desire to give this information to man is for my own benefit. God says "freely ye have received, freely give" and "For unto every one that hath shall be given, and he shall have abundance: but from him that hath not shall be taken away even that which he hath". All that we have, whether it be the possessions of this world or knowledge, wisdom, or understanding, comes from and is given to us by God. He may give it to us directly or through others, but it all comes from him. In the parable mentioned above he is talking about those who properly use what they receive from him in the way that he desires them to do as those who have and promises to give them more. Those who hide that which God gives them and don't use it in the way that he would have them to do are the ones that hath not and he says that he will take away the things that he has given to them. I have found that when I started to give out to others the things that God has given to me to understand, he has given me much more understanding than I had at the beginning. Since I desire and it is pleasurable to me to understand as much about God and his creation as he is willing to share with me, I try to share what he has shown me with others, which has resulted in the provision of a great increase of information to me from God over time. I encourage others to do the same, so they can receive such benefits also. Although it is good that there are benefits to man, I have found that it is best to first do all that you do for God, to please him. Then the other things will follow.
I have come to understand that without God man cannot come to understand God or his creation, but God can and does give understanding to the ones that he chooses to give the understanding to. God has worked out all the concepts of the creation long ago and can give those concepts to us as he chooses.
Thank you. I have tried to give all the information that I could related to your theory the best that I could. I know that in some cases I gave the same information several times, but I tried to give it from somewhat different viewpoints with the hope that if one way may not work another way might be understandable. Of course, only God can truly open up the understanding of things to any of us. Our problem is that we may not be given to know the particular form that he may use with any one person, so I often try to use several different forms.
It is good that you understand that God is the one who causes any true understandings to come to us whether they come into us directly into our minds, through the minds of others, or by observations of things that he sets before us to be observed by us. You are right, therefore, to be thankful to God for providing these things to you. All that I can do is to pass on to you the things that God has given to me, so the work is not mine, but God's. He has just chosen to pass that information on to you through me. I am not the original source of it. God is the source of all things.
Now that I have read these last comments, it appears to me that you now have come to understand many of the things that I gave in my answers to your previous comments that I answered earlier in this response. It is probably not necessary for you to go over all of those responses that I gave earlier in this long response, but just to cover anything that you need further information about or that you believe I may be wrong about, etc., to make it shorter, so it can be answered quicker.
I finished my project, but then my wife had a total knee replacement operation, so I have been very busy taking care of her for the last two to three months. As a result I slowly went through your comments and answered them a little at a time during that time when I got some time to do it. I chose to wait until I got through all of them to send my response back to you because when I sent a response back on just one of your comments to me, I usually got several comments back, so the amount of comments that I had to answer was just continually increasing. Hopefully with the answers to all of them at one time you can condense it all down to a smaller comment that just covers the most important things that need to be addressed because right now my time is still limited.
I was just about ready to send this comment out to you when a couple of things happened that might put greater limits on my available time to respond to you in the near future. First my wife is going into a new treatment for her cancer that will likely take about six hours per treatment and I want to be with her during her treatments and secondly, I see that there is now a new contest and I would like to enter that with a paper also. Never the less, I will try to answer any comments as quickly as I can. I am not sure if they will still notify you by email of new comments on this contest, so I am putting the comment on both of our pages to make it more likely that you will see it.
Sincerely,
Paul
