Got the message, adding you as a contact enlightenfawn thx WH …

Comment on New forum by sumstuff52.

got the message, adding you as a contact enlightenfawn

thx WH for the relay 😉

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your site is very informative, good work

Recent Comments by sumstuff52

Disappearing stars
It only went up to 71,850 feet, another 50,000 feet higher and it could like the ISS was taking the footage

Disappearing stars
Night time Balloon Launch

Balloon-Borne mission over Spain to study the Quadrantids from the stratosphere 20016. Night from the 3 to 4 of january 2016.

Cooperation between Proyecto Daedalus and the Grupo de Observación de Bólidos y Meteoros de la Universidad Complutense de Madrid (BYMUCM) part of the SPanish Meteor Network (SPMN)

Bendy light – the evidence
rectilineator-interferometer 120 yrs later: curvature boat (2016)

Bendy light – the evidence
I have no idea how the interferometer works myself, he sent me that message as he was overwhelmed by your website, so i told him i would send his email to you 🙂

Is the moon an optical illusion?
The moon is self-luminous, or shines with her own light, independently

The light of the moon is damp, cold, and powerfully septic; and animal and nitrogenous vegetable substances. exposed to it soon show symptoms of putrefaction. Even living creatures by long exposure to the moon’s rays, become morbidly affected. It is a common thing on board vessels going through tropical regions, for written or printed notices to be issued, prohibiting persons from sleeping on deck exposed to full moonlight, experience having proved that such exposure is often followed by injurious consequences.

“It is said that the moon has a pernicious effect upon those who, in the East, sleep in its beams; and that fish having been exposed to them for only one night, becomes most injurious to those who eat it.” 1

“At Peckham Rye, a boy named Lowry has entirely lost his sight by sleeping in a field in the bright moonlight.” 2

“If we place in an exposed position two pieces of meat, and one of them be subjected to the moon’s rays, while the other is

p. 142

protected from them by a screen or a cover, the former will be tainted with putrefaction much sooner than the other.” 1

Professor Tyndall describing his journey to the summit of the Alpine Mountain, Weisshorn, August 21st, 1861, says:–

“I lay with my face towards the moon (which was nearly full), and gazed until my face and eyes became so chilled that I was fain to protect them with a handkerchief.” 2

3rd. It is a well known fact, that if the sun is allowed to shine strongly upon a common coal, coke, wood, or charcoal fire, the combustion is greatly diminished; and often the fire is extinguished. It is not an uncommon thing for cooks, housewives, and others to draw down the blinds in summer time to prevent their fires being put out by the continued stream of sun-light pouring through the windows. Many philosophers have recently attempted to deny and ridicule this fact, but they are met, not only by the common sense and every-day experience of very practical people, but by the results of specially instituted experiments.

It is not so well known perhaps, but it is an equally decided fact, that when the light of the moon is allowed to play upon a common carbonaceous fire, the action is increased, the fire burns more vividly, and the fuel is more rapidly consumed.

4th. In sun-light a thermometer stands higher than a similar thermometer placed in the shade. In the full moon-light, a thermometer stands lower than a similar instrument in the shade.

5th. In winter when ice and snow are on the ground, it is patent to every boy seeking amusement by skating or snow-balling, that in the sun light both ice and snow are softer and sooner thaw than that behind a wall, or in the shade. It is equally well known that when, in frosty weather, the night is far advanced, and the full moon has been shining for some hours, the snow and ice exposed to the moon-light are hard and crisp, while in the shade, or behind any object which intercepts the moon’s rays it is warmer, and the ice and snow are softer and less compact. Snow will melt sooner in sun-light than in the shade; but sooner in the shade than when exposed to the light of the moon.

6th. The light of the sun reflected from the surface of a pool of water, or from the surface of ice, may be collected in a large lens, and thrown to a point or focus, when the heat will be found to be considerable; but neither from the light of the moon reflected in a similar way, nor direct from the moon itself, can a heat-giving focus be obtained.

7th. The sun’s light, when concentrated by a number of plane or concave mirrors throwing the light to the same point; or by a large burning lens, produces a black or non-luminous focus, in which the heat is so intense that metallic and alkaline substances are quickly fused; earthy and mineral compounds almost immediately vitrified; and all animal and vegetable structures in a few seconds decomposed, burned up and destroyed.

The moon’s light concentrated in the above manner produces a focus so brilliant and luminous that it is difficult to look upon it; yet there is no increase of temperature. In the focus of sun-light there is great heat but no light. In that of the moon’s light there is great light but no heat. That the light of the moon is without heat, is fully verified by the following quotations:—

“If the most delicate thermometer be exposed to the full light of the moon, shining with its greatest lustre, the mercury is not elevated a hair’s breadth; neither would it be if exposed to the focus of her rays concentrated by the most powerful lenses. This has been proved by actual experiment.” 1

“This question has been submitted to the test of direct experiment. . . . The bulb of a thermometer sufficiently sensitive to render apparent a change of temperature amounting to the thousandth part of a degree, was placed in the focus of a concave reflector of vast dimensions, which, being directed to the moon, the lunar rays were collected with great power upon it. Not the slightest change, however, was produced in the thermometric column; proving that a concentration of rays sufficient to fuse gold if they proceeded from the sun, does not produce a change of temperature so great as the thousandth part of a degree when they proceed from the moon.” 2

“The most delicate experiments have failed in detecting in the light of the moon either calorific or chemical properties. Though concentrated in the focus of the largest mirrors, it produces no sensible heating effect. To make this experiment, recourse has been had to a bent tube, the extremities of which terminate in two hollow globes filled with air, the one trans-parent, the other blackened, the middle space being occupied by a coloured fluid. In this instrument, when caloric is absorbed by it, the black ball takes up more than the other, and the air it encloses increasing in elasticity, the liquid is driven out. This instrument is so delicate that it indicates even the millionth part of a degree; and yet, in the experiment alluded to, it gave no result.” 1

“The light of the moon, though concentrated by the most powerful burning-glass, is incapable of raising the temperature of the most delicate thermometer. M. De la Hire collected the rays of the full moon when on the meridian, by means of a burning-glass 35 inches in diameter, and made them fall on the bulb of a delicate air-thermometer. No effect was produced though the lunar rays by this glass were concentrated 300 times. Professor Forbes concentrated the moon’s light by a lens 30 inches in diameter, its focal distance being about 41 inches, and having a power of concentration exceeding 6000 times. The image of the moon, which was only 18 hours past full, and less than two hours from the meridian, was brilliantly thrown by this lens on the extremity of a commodious thermopile. Although the observations were made in the most unexceptional manner, and (supposing that half the rays were reflected, dispersed and absorbed), though the light of the moon was concentrated 3000 times, not the slightest thermo effect was produced.” 2

In the “Lancet” (Medical Journal), for March 14th, 1856, particulars are given of several experiments which proved that the moon’s rays when concentrated, actually reduced the temperature upon a thermometer more than eight degrees.

It is the common experience of the world that the light of the sun heats and invigorates all things, and that moon light is cold and depressive. Among the Hindoos, the sun is called “Nidâghakara,” which means in Sanscrit “Creator of Heat;” and the moon is called “Sitala Hima,” “The Cold,” and “Himân’su,” “Cold-darting,” or “Cold-radiating.”

Poets, who but utter in measured words the universal knowledge of mankind, always speak of the “Pale cold moon,” and the expression is not only poetically beautiful, but also true philosophically.

“The cold chaste moon, the queen of Heaven’s bright Isles;
Who makes all beautiful on which she smiles:
That wandering shrine of soft yet icy flame
Which ever is transformed, yet still the same;
And warms not but illumes.”

The facts now placed in contrast make it impossible to conclude otherwise than that the moon does not shine by reflection, but by a light peculiar to herself–that she is in short self-luminous. This conclusion is confirmed by the following consideration. The moon is said by the Newtonian philosophers to be a sphere. If so, its surface could not possibly reflect; a reflector must be concave or plane, so that the rays of light may have an “angle of incidence.” If the surface is convex, every ray of light falls upon it in a line direct with radius, or perpendicular to the surface. Hence there cannot be an angle of incidence and therefore none of reflection. If the moon’s surface were a mass of highly polished silver, it could not reflect from more than a mere point. Let a silvered glass ball of considerable size be held before a lamp or fire of any magnitude, and it will be seen that instead of the whole surface reflecting light there will only be a very small portion illuminated. But during full moon the whole disc shines intensely, an effect which from a spherical surface is impossible. If the surface of the moon were opaque and earthy instead of polished like a mirror, it might be seen simply illuminated like a dead wall, or the face of a distant sandstone rock, or chalky cliff, but it could not shine intensely from every part, radiating brilliant light and brightly illuminating the objects around it, as the moon does so beautifully when full and in a clear firmament. If the earth were admitted to be globular, and to move, and to be capable of throwing a shadow by intercepting the sun’s light, it would be impossible for a lunar eclipse to occur thereby, unless, at the same time, the moon is proved to be non-luminous, and to shine only by reflection. But this is not proved; it is only assumed as an essential part of a theory. The contrary is capable of proof. That the moon is self-luminous, or shines with her own light, independently. The very name and the nature of a reflector demand certain well-defined conditions. The moon does not manifest these necessary conditions, and therefore it must be concluded, of necessity, that she is not a reflector, but a self-luminous body. That she shines with her own light independently of the sun, thus admits of direct demonstration.

As the moon is self-luminous, her surface could not be darkened or “eclipsed” by a shadow of the earth–supposing such a shadow could be thrown upon it. In such a case, the luminosity instead of being diminished, would increase, and would be greater in proportion to the greater density or darkness of the shadow. As the light in a bull’s-eye lantern looks brightest in the darkest places, so would the self-shining surface of the moon be most intense in the umbra or deepest part of the earth’s shadow.

The moon shining brightly during the whole time of eclipse, and with a light of different hue to that of the sun; and the light of the moon having, as previously shown, a different character to that of the sun; the earth not a globe, and not in motion round the sun, but sun and moon always over the earth’s plane surface, render the proposition unavoidable as it is clearly undeniable that a lunar eclipse does not and could not in the nature of things arise from a shadow of the earth, but must of sheer logical necessity be referred to some other cause.

We have seen that, during a lunar eclipse, the moon’s self-luminous surface is covered by a semi-transparent something; that this “something” is a definite mass, because it has a distinct and circular outline, as seen during its first and last contact with the moon. As a solar eclipse occurs from the moon passing before the sun, so, from the evidence above collected, it is evident that a lunar eclipse arises from a similar cause–a body semi-transparent and well-defined passing before the moon; or between the moon’s surface and the observer on the surface of the earth.

That many such bodies exist in the firmament is almost a matter of certainty; and that one such as that which eclipses the moon exists at no great distance above the earth’s surface, is a matter admitted by many of the leading astronomers of the day. In the report of the council of the Royal Astronomical Society, for June 1850, it is said:–

“We may well doubt whether that body which we call the moon is the only satellite of the earth.”

In the report of the Academy of Sciences for October 12th, 1846, and again for August, 1847, the director of one of the French observatories gives a number of observations and calculations which have led him to conclude that,–

“There is at least one non-luminous body of considerable magnitude which is attached as a satellite to this earth.”

Sir John Herschel admits that:–

“Invisible moons exist in the firmament.” 1

Sir John Lubbock is of the same opinion, and gives rules and formulæ for calculating their distances, periods, &c. 2

At the meeting of the British Association for the Advancement of Science, in 1850, the president stated that,—

“The opinion was gaining ground, that many of the fixed stars were accompanied by companions emitting no light.”

“The ‘changeable stars’ which disappear for a time, or are eclipsed, have been supposed to have very large opaque bodies revolving about or near to them, so as to obscure them when they come in conjunction with us.” 3

“Bessel, the greatest astronomer of our time, in a letter to myself, in July 1844, said, ‘I do indeed continue in the belief that Procyon and Sirius are both true double stars, each consisting of one visible, and one invisible star.’ . . A laborious inquiry just completed by Peters at Königsberg; and a similar one by Schubert, the calculator employed on the North American Nautical Almanack, support Bessel.” 1

“The belief in the existence of non-luminous stars was prevalent in Grecian antiquity, and especially in the early times of Christianity. It was assumed that ‘among the fiery stars which are nourished by vapours, there move other earthy bodies, which remain invisible to us!’ Origenes.” 2

“Stars that are invisible and consequently have no name move in space together with those that are visible.” Diogenes of Appollonica. 3

Lambert in his cosmological letters admits the existence of “dark cosmical bodies of great size.” 4

We have now seen that the existence of dark bodies revolving about the luminous objects in the firmament has been admitted by practical observers from the earliest ages; and that in our own day such a mass of evidence has accumulated on the subject, that astronomers are compelled to admit that not only dark bodies which occasionally obscure the luminous stars when in conjunction, but that cosmical bodies of large size exist, and that “one at least is attached as a satellite to this earth.” It is this dark or “non-luminous satellite,” which when in conjunction, or in a line with the moon and an observer on earth, IS THE IMMEDIATE CAUSE OF A LUNAR ECLIPSE.

Those who are unacquainted with the methods of calculating eclipses and other phenomena, are prone to look upon the correctness of such calculations as powerful arguments in favour of the doctrine of the earth’s rotundity and the Newtonian philosophy, generally. One of the most pitiful manifestations of ignorance of the true nature of theoretical astronomy is the ardent inquiry so often made, “How is it possible for that system to be false, which enables its professors to calculate to a second of time both solar and lunar eclipses for hundreds of years to come?” The supposition that such calculations are an essential part of the Newtonian or any other theory is entirely gratuitous, and exceedingly fallacious and misleading. Whatever theory is adopted, or if all theories are discarded, the same calculations can be made. The tables of the moon’s relative positions for any fraction of time are purely practical–the result of long-continued observations, and may or may not be connected with hypothesis. The necessary data being tabulated, may be mixed up with any, even the most opposite doctrines, or kept distinct from every theory or system, just as the operator may determine.

“The considered defects of the system of Ptolemy (who lived in the second century of the Christian era), did not prevent him from calculating all the eclipses that were to happen for 600 years to come.” 1

“The most ancient observations of which we are in possession, that are sufficiently accurate to be employed in astronomical calculations, are those made at Babylon about 719 years before the Christian era, of three eclipses of the moon. Ptolemy, who has transmitted them to us, employed them for determining the period of the moon’s mean motion; and therefore had probably none more ancient on which he could depend. The Chaldeans, however, must have made a long series of observations before they could discover their ‘Saros,’ or lunar period of 6585â…“ days, or about 18 years; at which time, as they had learnt, the place of the moon, her node and apogee return nearly to the same situation with respect to the earth and the sun, and, of course, a series of nearly similar eclipses occur.” 1

“Thales (B.C. 600) predicted the eclipse which terminated the war between the Medes and the Lydians. Anaxagoras (B.C. 530) predicted an eclipse which happened in the fifth year of the Peloponnesian War.” 2

“Hipparchus (140 B.C.) constructed tables of the motions of the sun and moon; collected accounts of such eclipses as had been made by the Egyptians and Chaldeans, and calculated all that were to happen for 600 years to come.” 3

“The precision of astronomy arises, not from theories, but from prolonged observations, and the regularity of the motions, or the ascertained uniformity of their irregularities.” 4

“No particular theory is required to calculate eclipses; and the calculations may be made with equal accuracy independent of every theory.” 5

“It is not difficult to form some general notion of the process of calculating eclipses. It may be readily conceived that by long-continued observations on the sun and moon, the laws of their revolution may be so well understood that the exact places which they will occupy in the heavens at any future times may be foreseen, and laid down in tables of the sun and moon’s motions; that we may thus ascertain by inspecting the tables the instant when these bodies will be together in the heavens, or be in conjunction.” 1

The simplest method of ascertaining any future eclipse is to take the tables which have been formed during hundreds of years of careful observation; or each observer may form his own tables by collecting a number of old almanacks one for each of the last forty years: separate the times of the eclipses in each year, and arrange them in a tabular form. On looking over the various items he will soon discover parallel cases, or “cycles” of eclipses; that is, taking the eclipses in the first year of his table, and examining those of each succeeding year, he will notice peculiarities in each year’s phenomena; but on arriving to the items of the nineteenth and twentieth years, he will perceive that some of the eclipses in the earlier part of the table will have been now repeated–that is to say, the times and characters will be alike. If the time which has elapsed between these two parallel or similar eclipses be carefully noted, and called a “cycle,” it will then be a very simple and easy matter to predict any future similar eclipse, because, at the end of the “cycle,” such similar eclipse will be certain to occur; or, at least, because such repetitions of similar phenomena have occurred in every cycle of between eighteen and nineteen years during the last several thousand years, it may be reasonably expected that if the natural world continues to have the same general structure and character, such repetitions may be predicted for all future time. The whole process is neither more nor less–except a little more complicated–than that because an express train had been observed for many years to pass a given point at a given second–say of every eighteenth day, so at a similar moment of every cycle or eighteenth day, for a hundred or more years to. come, the same might be predicted and expected. To tell the actual day and second, it is only necessary to ascertain on what day of the week the eighteenth or “cycle day” falls.

Tables of the places of the sun and moon, of eclipses, and of kindred phenomena, have existed for thousands of years, and w ere formed independently of each other, by the Chaldean, Babylonian, Egyptian, Hindoo, Chinese, and other ancient astronomers. Modern science has had nothing to do with these; farther than rendering them a little more exact, by averaging and reducing the fractional errors which a longer period of observation has detected.

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