Good to see so many looking down at the center of the earth and the tide on the other side of the planet. ((⏱️=1000))That's commendable.((⏱️=800)) A good fresh start for the world. ((⏱️=1000))As it works out, Sir Isaac Newton is having inordinate trouble in his spaceship. ((⏱️=1000))He cannot return to earth at the moment to explain the error of his ways. ((⏱️=1000))The moon has said good night and signed off from our junior school tidal debacle. ((⏱️=1000))But our extra terrestrial luck has not run out just yet.((⏱️=1000)) Planet Venus is endeavoring to establish a connection with the earth to explain why it believes it turns in the opposite direction to the earth.((⏱️=1000)) Are you there Venus? ((⏱️=1500))Come in spinner. ((⏱️=1000))Venus is approaching the earth now.((⏱️=1000))Consider taking the day off school or work.((⏱️=1000))This could be important.((⏱️=500))
((⏱️=2000))Well neighbor. ((⏱️=1000))Hello.((⏱️=1500)) More or less just dropping by to get acquainted and to thank you for your data collection work.((⏱️=1000)) As you now know, we are synchronized together. [[break=1000]]My day length is a function of your year length.[[break=1000]] Three of my days to two of your years is our ratio.[[break=800]] If we as a solar system, are going to be a worthwhile component of the universe we best see if we can reach a verdict on why this is so. [[break=1000]]You also have to do your best to stop multiplying the earth by an apple. ((⏱️=1000))Eventually that should come natural to you. ((⏱️=1000)) Before we have our afternoon tea, your moon is now out of ear shot. ((⏱️=1000)) Why do you think the same face of the moon is always towards your planet((⏱️=2000))
((⏱️=2000))If you scan your internet, you will get an answer along the lines of tidal locking.((⏱️=800)) The locking is not a remnant of the past as your internet will suggest.. ((⏱️=1000))Not according to our finite gravity field calculations. ((⏱️=1000))There is a surprise about the moon coming.((⏱️=1000)) But you have seen how a smaller gravity field is mathematically contained within a larger one using your planet and the sun as a big small example. ((⏱️=1000))Can you see that the shape of the earth's gravity field in space always has the same geometric orientation with respect of the sun.((⏱️=1000)) So the question to you is this.((⏱️=1000)) What if the earth was locked to the shape of its gravity field by the nature of its equal and opposite tidal forces. ((⏱️=1000))Then the earth would always have the same face pointed towards the sun and would also have a perennial dark side. ((⏱️=1000))We suggest to you that therein lies the reason the same face of the moon is always towards the earth. ((⏱️=1000))Whereas your planet is able to turn through the tidal shape of a gravity field, your moon is <emphasis level="strong">not</emphasis> so able.((⏱️=1000))The moon is forcibly locked to the rotation of the gravity field it is dwelling in by its equal and opposite tidal forces. ((⏱️=1000))Is that an understandable solution for you to carry in the back of your mind as at least a possibility.((⏱️=1000))If it seems a reasonable solution to you, we could have a quick look at the surprise about the moon.((⏱️=2000))
We will keep it brief at this stage.((⏱️=1000))It will not be able to hit the spot until your earth apple multiplication fetish is fetched back into order. ((⏱️=1000))But here it is. ((⏱️=1000))Calculations show that the moon has already left the earth's gravity field. ((⏱️=1000))I am just the current spokes planet for the rest of the solar system. ((⏱️=1000))But we thought you should know what our calculations are showing. ((⏱️=1000))You measure the moon as moving away from the earth by several centimeters a year. ((⏱️=1000))Assuming this is correct, whether or not the moon has already left the earth's gravity field is not the complete point. ((⏱️=1000))The question for us all is going to be does the moon eventually slip away from you on my side. ((⏱️=1000)) Or does it leave on the Mars side of the earth. ((⏱️=1000))If the moon has already left the earth's gravity field, the consideration of the moon leaving one side or the other is a casually pertinent consideration for your class rooms. ((⏱️=1000))The calculations here are done when the earth and moon are at their closest point. ((⏱️=1000))They raise the question of why the moon still has behavior relative to the earth that is consistent with the earth's gravity field. ((⏱️=1000))The obvious answer is the calculations or the rationale behind the calculations are wrong.((⏱️=1000)) And that maybe the case. ((⏱️=1000))In good time you will be able to decide. ((⏱️=1000)) As a fore warning though, you will see the word push on some diagrams that are to follow. ((⏱️=1000))This may alarm senses and much held beliefs about the universe. ((⏱️=1000))With respect of the moon already having left the earth's gravity field, an alternating system of galactic pushes between the earth and the moon gravity fields is what our assessment is.((⏱️=1000))On another matter and with the word galactic introduced. ((⏱️=1000))There is something corrupt about your scholarship. ((⏱️=1000))You have discovered the superior motion of the sun around a galaxy. ((⏱️=1000)) You still determinedly teach the solar system through a fixed sun. ((⏱️=1000))Meaning you are teaching a fixed sun solar system lie to your young folk. ((⏱️=1000))Our current consideration is day lengths so another thank you to your data collection fraternity for this chart here.
They do good work you know. ((⏱️=800)) The wonder is why you are not already considering what is about to be said. ((⏱️=1000)) As your data demonstrates, U ranus and I are the backwards turners of the solar system. ((⏱️=1000))This is denoted by the negative symbol preceding the number that represents our day lengths.((⏱️=800)) For all the planets the day lengths are measured here in earth days. ((⏱️=1000))The first thing to notice is that the inner two planets. Freddie and I, that's Mercury to you, have day lengths of the order of our orbital periods. ((⏱️=800))This is something like your moon which we just had under consideration as being turned directly by its gravity field. ((⏱️=1000))The outer six planets all rotate many times during their orbital periods.((⏱️=1000))But in adjacent pairs they are observed to have similar day lengths. ((⏱️=1000)) Your planet and Mars each have approximately 24 hours in a day. ((⏱️=1000))Then out to Jupiter and Saturn, with approximately 10 earth hours to each of their days. ((⏱️=1000))Finally U ranus and Neptune at around the sixteen seventeen earth hour mark for each of their day lengths.((⏱️=1000))As well as turning backwards the rotational axis of U ranus is almost directly pointing towards the sun. ((⏱️=1000))These patterns may mean nothing.((⏱️=1000))But they are definitely there and are hard to ignore.((⏱️=1000))For some reason your academic world is missing them.((⏱️=1000)) That reason of ignorance is not really mysterious.((⏱️=1000))When you are multiplying the earth by an apple to understand the universe, simple close by celestial patterns can easily not seem as stark as what they really are.
On this table you can see the opening suggestion is your solar high tide axis passes through my gravity field when I pass between you and the sun. ((⏱️=1000)) The idea is this tidal axis of yours provides an impetus to turn my gravity field backwards as both our gravity fields continue their journeys around the sun. ((⏱️=1000))Your tidal axis path to the sun is now through my gravity field. ((⏱️=1000))Just an idea.((⏱️=1000))Nothing definite. ((⏱️=1000))Where the stocks of the notion take a rise is when the basic concept is applied to the rest of the solar system. ((⏱️=1000))The way it appears is this. ((⏱️=1000))Freddie and I, that's Mercury to you, have a rotational aspect akin to your moon. ((⏱️=1000)) We are not turning freely through the equal and opposite tidal axes of our gravity fields. ((⏱️=1000))Our day lengths are quite directly controlled by the turning of those axes.
Underneath the numbers you can see the opening or lead in suggestion to achieving an understanding of the patterns. ((⏱️=1000))Your solar high tide axis passes through my gravity field when I pass between you and the sun. ((⏱️=1000)) The idea is this tidal axis of yours originally provides an impetus to turn my gravity field backwards as both our gravity fields continue their journeys around the sun. ((⏱️=1000))Beyond our alignment with the sun, your high tide axis path to the sun is now indirectly going to the sun through my gravity field. ((⏱️=2000))The diagrams that follow this preamble are only in two dimensions and the ellipses are ignored. ((⏱️=800))With an allowance for Mercury with its pronounced ellipse and major deviation from the plane the rest of the planets are in, all our orbits are in almost the same plane as we go around the sun. ((⏱️=800))So neither the two dimensional aspect or the disregard of the ellipses should be an outright disqualifier for what is to come. ((⏱️=1000)) Which is a concept of an axis mid way between the high and low tidal axes of one planet entering the orbit or low tide axis of the next planet in. ((⏱️=800))And then returning to the outer planet from the other side of the inner planet orbit. ((⏱️=1000))So as the orbital periods and turn rates of adjacent planets are impacting each others gravity field turn rate. ((⏱️=800)) The key suggestion to you is there is a real relationship between gravity field turn rates and the day length a planet experiences as seen on the table. ((⏱️=1000))This is the consideration we believe you need to further your understanding of the universe that we are in. ((⏱️=800))When we get a little further into the earth apple multiplication fiasco, the inverse square law and what Kepler's third law is will be explained in a little more detail for those of you not so familiar with either. ((⏱️=1000)) Kepler's third law basically means that the planets have mathematically ordered slower velocities relative to the sun the further they are away from the sun.((⏱️=1000))You can see this in the second last column of the table.((⏱️=1000)) When the mid tide axis of say, your planet, enters my Kepler third law orbit, this axis is travelling at the slower Kepler third law velocity of your planet. ((⏱️=1000))Which is about 30 kilometers a second. ((⏱️=1000))My Kepler third law velocity is 35 kilometers a second. ((⏱️=1000)) So the idea is there is an interplanetary Kepler third law tension between adjacent planets and that tension results in the day lengths of the planets. ((⏱️=1000))As it works out in two dimensions, while an inner planet moves a quarter orbit beyond their conjunction with an outer planet and the sun, all the outer planets have moved just past the tangential position.
We can begin with a quick look at Fast Freddy and I ((⏱️=1000))When Freddie passes between myself and the sun as you can see, my high tide axis is passing through Freddie's gravity field. ((⏱️=1000))That's the beginning point.((⏱️=800)) So what happens to my solar high tide axis when we set things going and fast Freddy over takes me on the inside.((⏱️=1500))Let's see.((⏱️=800)) My high solar tide axis does reestablish when Freddie's gravity field has advanced sufficiently and there is a clear line of sight from me to the sun again.((⏱️=1400))There is now a tidal axis joining us though. ((⏱️=1000))What we are saying is this axis becomes permanent and is the enduring mid tide key to the day length patterns we were just looking at on your data collection table. ((⏱️=1000)) Except for the absence of Freddie's pronounced ellipse and the actual sizes of our gravity fields, this is a to scale demonstration. ((⏱️=1000))The relative speeds and distances between Freddy and I are to the numbers provided by your telescopes. ((⏱️=1000))Now Freddy has performed a quarter orbit beyond our conjunction with the sun. ((⏱️=1000)) You can see what was once part of my solar high tide axis is now in an approximate tangential position to Freddy's Kepler third law orbital path.
As mentioned the ellipses are being ignored at this stage. ((⏱️=1000))Your astronomers and mathematicians can work on this fresh idea to see just how they ellipses affect things if they have that sort of desire.((⏱️=1000))There is one exception to this pattern. ((⏱️=1000))You may have guessed it.((⏱️=1000))Your planet is a little further advanced beyond the tangential position than the rest.((⏱️=1000))This may be explained when the ellipses are factored in. ((⏱️=1000))As your mathematicians and astronomers will know, my Venetian ellipse is almost non existent and Freddie's is quite pronounced.((⏱️=1000))You would expect some alteration when the ellipses are factored in.((⏱️=1000)) That alteration may remove the anomaly. ((⏱️=1000))Also the Jupiter Mars connection appears just before the tangential position.((⏱️=1000))With the distance between the Jupiter and Mars orbits being so far apart in relative terms, this does not appear to be an anomaly. ((⏱️=1000))Anyway, thank you for following along with these words. ((⏱️=1000))See what you make of the diagrams and the animations that follow.
Before we finish this diagram off and as a forewarning, you will be seeing the word push on the next series of diagrams.((⏱️=1000)) This may alarm you. ((⏱️=1000))Here you can now see the axis that runs between Freddy and I has been extended around Freddie's orbital path and has then returned to my gravity field by coming out around the other side of Freddie's orbit. ((⏱️=1500))So now I have a mid tide axis in Freddie's orbit that is travelling at 35 kilometers a second relative to the sun while the speed Freddy is travelling at is 48 kilometers a second. ((⏱️=2000))Here you see my solar day is synchronized to Freddie's side real day. ((⏱️=1000))The ratio is 1 to two. ((⏱️=1000))We believe this is because each of our orbital speeds is impacting the turn rates of our respective gravity fields through my mid tide axes being in Freddie's orbit.((⏱️=1000)) A solar day is when the same face of a planet returns to be facing the sun again.((⏱️=1000)) A side real day is when a planet turns once on its axis with respect of the background stars.((⏱️=1000)) For the outer six planets side real days and solar days are virtually the same. ((⏱️=1000))Not so for Freddy and I. ((⏱️=1000)) We are closer to the sun.
The ratio between the meeting of our gravity fields with the sun's gravity field is of a higher order. ((⏱️=1000))If we are not onto the right verdict here with our mid tide theory, you can see that it is very hard to dismiss these rotational ratios between us inner three planets as coincidental. ((⏱️=1000))With the tangential position of the outer planet after an inner planet moves on a quarter orbit from a conjunction, there is one distinct anomaly.((⏱️=1000)) You may have guessed it. It is your planet and I. ((⏱️=800))Your planet's mid tide axes are approximating a right angle though.((⏱️=800))The Mars Jupiter one is just before the tangential position.((⏱️=1000)) With the relatively large distance between the Mars and Jupiter orbits, this does not necessarily appear as an anomaly.((⏱️=1000)) Here's hoping you are ready to see the word push.((⏱️=800))It's between all the gravity fields of us planets as we go around the galaxy.((⏱️=1000))There is a push between your gravity field and the moon's gravity field of course((⏱️=1000))And what you refer to as your lunar tides essentially do not have the moon as their base cause.((⏱️=1000))That base cause is the sun and the moon is moving those solar tides around your planet.((⏱️=1000))You may well disagree with all of this.((⏱️=1000))But it should interest you.
The high tide axes for the planets with the inherent terminations run from the planet to the sun. ((⏱️=1000))Our low tide axes are our orbital paths. ((⏱️=1000)) My mid tide axis has entered the low tide axis of Mercury.((⏱️=1000)) Behind Mercury this axis is travelling at my Kepler third law velocity of 35 km/second. ((⏱️=1000))In front of Mercury the axis is travelling at the Kepler third law velocity of Mercury which is 48 kilometers a second.((⏱️=1000))Under existing earth mathematics, planets cannot push on each other in the manner being portrayed here.((⏱️=1000))So perhaps this is all wrong. ((⏱️=1000))Next we can have a look at the anomaly. ((⏱️=1000))Your planet and yours truly.