ADVENT 281
RA OSIRIS 2 OSIRIS RA
THE EGYPTIAN HEAVEN AND HELL BOOK OF THE DEAD E. A.Wallis Budge 1857 - 1934 Page 59/60 CHAPTER OF COMING FORTH BY DAY AND OF MAKING A WAY THROUGH AMMEHET.1 "Saith Osiris, the king, the lord of the two lands, MEN-MAAT-RA, whose word is maat, the son of the Sun, [procceeding] from his body loving him, the lord of crowns, SETI MER-EN-PTAH, whose word is maat, "Homage to "you, O ye lords of maat, who are free from iniquity, "who exist and live for ever and to the double henti "period of everlastingness, MEN-MAAT-, whose word is "maat, the son of the Sun, [proceeding] from his body, " loving him, the lord of diadems, SETI MER-EN-PTAH, / "whose word is maat, before you hath become a "khu (i.e., a spirit) in his attributes, he hath gained " the mastery through his words of power, and he "is laden with his splendours. O deliver ye the "Osiris, the king, the lord of the two lands, MEN-MAAT-RA, whose word is maat, the son of the Sun, lord of diadems, SETI MER-EN-PTAH, whose word is maat, from the crocodile of this Pool of "Matti. He hath his mouth, let him speak there-"with. Let there be granted unto him broad-handed- "ness in your presence, because I know you, and I "know your names. . ."
The 100 most common words in Englishhttps://www.espressoenglish.net › the-100-most-commo... The 100 Most Common Words In English
THE PERIODIC TABLE Periodic table - Wikipedia https://en.wikipedia.org › wiki › Periodic_table The periodic table, also known as the periodic table of elements, is a tabular display of the chemical elements, which are arranged by atomic number, electron? ... ?Periodic trends · ?Extended periodic table · ?Alternative periodic tables · ?Block The elements from atomic numbers 1 (hydrogen) to 118 (oganesson) have all been discovered or synthesized, completing seven full rows of the periodic table.[1][2] The first 94 elements, hydrogen to plutonium, all occur naturally, though some are found only in trace amounts and a few were discovered in nature only after having first been synthesized.[n 1] Elements 95 to 118 have only been synthesized in laboratories, nuclear reactors, or nuclear explosions.[3] The synthesis of elements having higher atomic numbers is currently being pursued: these elements would begin an eighth row, and theoretical work has been done to suggest possible candidates for this extension. Numerous synthetic radioisotopes of naturally occurring elements have also been produced in laboratories. The organization of the periodic table can be used to derive relationships between the various element properties, and also to predict chemical properties and behaviours of undiscovered or newly synthesized elements. Russian chemist Dmitri Mendeleev published the first recognizable periodic table in 1869, developed mainly to illustrate periodic trends of the then-known elements. He also predicted some properties of unidentified elements that were expected to fill gaps within the table. Most of his forecasts soon proved to be correct, culminating with the discovery of gallium and germanium in 1875 and 1886 respectively, which corroborated his predictions.[4] Mendeleev's idea has been slowly expanded and refined with the discovery or synthesis of further new elements and the development of new theoretical models to explain chemical behaviour. The modern periodic table now provides a useful framework for analyzing chemical reactions, and continues to be widely used in chemistry, nuclear physics and other sciences. Some discussion remains ongoing regarding the placement and categorisation of specific elements, the future extension and limits of the table, and whether there is an optimal form of the table. Each chemical element has a unique atomic number (Z) representing the number of protons in its nucleus.[n 2] Most elements have differing numbers of neutrons among different atoms, with these variants being referred to as isotopes. For example, carbon has three naturally occurring isotopes: all of its atoms have six protons and most have six neutrons as well, but about one per cent have seven neutrons, and a very small fraction have eight neutrons. Isotopes are never separated in the periodic table; they are always grouped together under a single element. Elements with no stable isotopes have the atomic masses of their most stable isotopes, where such masses are shown, listed in parentheses.[8] In the standard periodic table, the elements are listed in order of increasing atomic number Z. A new row (period) is started when a new electron shell has its first electron. Columns (groups) are determined by the electron configuration of the atom; elements with the same number of electrons in a particular subshell fall into the same columns (e.g. oxygen and selenium are in the same column because they both have four electrons in the outermost p-subshell). Elements with similar chemical properties generally fall into the same group in the periodic table, although in the f-block, and to some respect in the d-block, the elements in the same period tend to have similar properties, as well. Thus, it is relatively easy to predict the chemical properties of an element if one knows the properties of the elements around it.[9] Since 2016, the periodic table has 118 confirmed elements, from element 1 (hydrogen) to 118 (oganesson). Elements 113, 115, 117 and 118, the most recent discoveries, were officially confirmed by the International Union of Pure and Applied Chemistry (IUPAC) in December 2015. Their proposed names, nihonium (Nh), moscovium (Mc), tennessine (Ts) and oganesson (Og) respectively, were made official in November 2016 by IUPAC.[10][11][12][13] The first 94 elements occur naturally; the remaining 24, americium to oganesson (95–118), occur only when synthesized in laboratories. Of the 94 naturally occurring elements, 83 are primordial and 11 occur only in decay chains of primordial elements.[3] No element heavier than einsteinium (element 99) has ever been observed in macroscopic quantities in its pure form, nor has astatine (element 85); francium (element 87) has been only photographed in the form of light emitted from microscopic quantities (300,000 atoms).[14] Sets of elements SETS OF ELEMENTS
In chronological order, this section discusses metals and nonmetals (and metalloids); categories of elements; groups and periods; and periodic table blocks. While the recognition of metals as solid, fusible and generally malleable substances dates from antiquity,[15][16] Antoine Lavoisier may have the first to formally distinguish between metals and nonmetals ('non-métalliques') in 1789 with the publication of his 'revolutionary'[17] Elementary Treatise on Chemistry.[18] In 1811, Berzelius referred to nonmetallic elements as metalloids,[19][20] in reference to their ability to form oxyanions.[21][22] In 1825, in a revised German edition of his Textbook of Chemistry,[23][24] he subdivided the metalloids into three classes. These were: constantly gaseous 'gazolyta' (hydrogen, nitrogen, oxygen); real metalloids (sulfur, phosphorus, carbon, boron, silicon); and salt-forming 'halogenia' (fluorine, chlorine, bromine, iodine).[25] Only recently, since the mid-20th century, has the term metalloid been widely used to refer to elements with intermediate or borderline properties between metals and nonmetals. Mendeleev published his periodic table in 1869, along with references to groups of families of elements, and rows or periods of his periodic table. At the same time, Hinrichs wrote that simple lines could be drawn on a periodic table in order to delimit properties of interest, such as elements having metallic lustre (in contrast to those not having such lustre).[26] Charles Janet, in 1928, appears to have been the first to refer to the periodic table's blocks.[27] Metals, metalloids and nonmetals Metal and nonmetals can be further classified into subcategories that show a gradation from metallic to non-metallic properties, when going left to right in the rows. The metals may be subdivided into the highly reactive alkali metals, through the less reactive alkaline earth metals, lanthanides and actinides, via the archetypal transition metals, and ending in the physically and chemically weak post-transition metals. Nonmetals may be simply subdivided into the polyatomic nonmetals, being nearer to the metalloids and show some incipient metallic character; the essentially nonmetallic diatomic nonmetals, nonmetallic and the almost completely inert, monatomic noble gases. Specialized groupings such as refractory metals and noble metals, are examples of subsets of transition metals, also known[29] and occasionally denoted.[30] Placing elements into categories and subcategories based just on shared properties is imperfect. There is a large disparity of properties within each category with notable overlaps at the boundaries, as is the case with most classification schemes.[31] Beryllium, for example, is classified as an alkaline earth metal although its amphoteric chemistry and tendency to mostly form covalent compounds are both attributes of a chemically weak or post-transition metal. Radon is classified as a nonmetallic noble gas yet has some cationic chemistry that is characteristic of metals. Other classification schemes are possible such as the division of the elements into mineralogical occurrence categories, or crystalline structures. Categorizing the elements in this fashion dates back to at least 1869 when Hinrichs[32] wrote that simple boundary lines could be placed on the periodic table to show elements having shared properties, such as metals, nonmetals, or gaseous elements. Categories An individual category is not necessarily exclusive according to its name, boundary, or shared properties. For example, while beryllium in Group 2 is colored as an alkaline earth metal, it is amphoteric rather than alkaline in nature
118 Elements and Their Symbols and Atomic Numbers The periodic table of elements is widely used in the field of Chemistry to look up chemical elements as they are arranged in a manner that displays periodic trends in the chemical properties of the elements. However, the Periodic table generally displays only the symbol of the element and not its entire name. Most of the symbols are similar to the name of the element but some symbols of elements have Latin roots. An example for this is silver which denoted by Ag from its Latin name “Argentum”. Another such example would be the symbol ‘Fe’ which is used to denote Iron and can be traced to the Latin word for iron, “Ferrum”. It could prove difficult for a beginner in chemistry to learn the names of all the elements in the periodic table because these symbols do not always correspond to the English names of the elements. Therefore, a list of 118 elements and their symbols and atomic numbers is provided below: 118 Elements and Their Symbols and Atomic Numbers
Name of the Element Symbol of the Element Atomic Number
LETTERS TRANSPOSED INTO NUMBER REARRANGED IN NUMERICAL ORDER LOOK AT THE 5FIVE5S LOOK AT THE 5FIVE5S LOOK AT THE 5FIVE5S THE 5FIVE5S THE 5FIVE5S
EXPERIENCE
LETTERS TRANSPOSED INTO NUMBER REARRANGED IN NUMERICAL ORDER LOOK AT THE 5FIVE5S LOOK AT THE 5FIVE5S LOOK AT THE 5FIVE5S THE 5FIVE5S THE 5FIVE5S
THE NEW MATHEMATICS OF CHAOS Ian Stewart 1989 Page 1 PROLOGUE CLOCKWORK OR CHAOS? "YOU BELIEVE IN A GOD WHO PLAYS DICE, AND I IN COMPLETE LAW AND ORDER." Albert Einstein, Letter to Max Born
"YOU B5LI5V5 I5 A GOD 5HO PLAYS DIC5, A5D I I5 COMPL5T5 LA5 A5D ORD5R." 5 x 13 = 65
LETTERS TRANSPOSED INTO NUMBER REARRANGED IN NUMERICAL ORDER
ATUM THE COMPLETE AND ALL CONTAINING ONE
ATUM THE COMPLETE AND ALL SUSTAINING ONE
THE HERMETICA THE LOST WISDOM OF THE PHARAOHS Timothy Freke & Peter Gandy To the Memory of Giordano Bruno 1548 - 1600 Mundus Nihil Pulcherrimum The World is a Beautiful Nothing Page 23 "Although we have used the familiar term 'God' in the explanatory notes which accompany each chapter, we have avoided this term in the text itself. Instead we have used 'Atum - one of the ancient Egyptian names for the Supreme One God."
Page 45 The Being of Atum "Atum is Primal Mind."
Page 45 The Being of Atum Give me your whole awareness, and concentrate your thoughts, for Knowledge of Atum's Being requires deep insight, which comes only as a gift of grace. It is like a plunging torrent of water whose swiftness outstrips any man who strives to follow it, leaving behind not only the hearer, but even the teacher himself. To conceive of Atum is difficult. To define him is impossible. The imperfect and impermanent cannot easily apprehend the eternally perfected. Atum is whole and conconstant. In himself he is motionless, yet he is self-moving. He is immaculate, incorruptible and ever-lasting. He is the Supreme Absolute Reality. He is filled with ideas which are imperceptible to the senses, and with all-embracing Knowledge. Atum is Primal Mind. Page 46 He is too great to be called by the name 'Atum'. He is hidden, yet obvious everywhere. His Being is known through thought alone, yet we see his form before our eyes. He is bodiless, yet embodied in everything. There is nothing which he is not. He has no name, because all names are his name. He is the unity in all things, so we must know him by all names and call everything 'Atum'. He is the root and source of all. Everything has a source, except this source itself, which springs from nothing. Atum is complete like the number one, which remains itself whether multiplied or divided, and yet generates all numbers. Atum is the Whole which contains everything. He is One, not two. He is All, not many. The All is not many separate things, but the Oneness that subsumes the parts. The All and the One are identical. You think that things are many when you view them as separate, but when you see they all hang on the One, /Page 47/ and flow from the One, you will realise they are unitedlinked together, and connected by a chain of Being from the highest to the lowest, all subject to the will of Atum. The Cosmos is one as the sun is one, the moon is one and the Earth is one. Do you think there are many Gods? That's absurd - God is one. Atum alone is the Creator of all that is immortal, and all that is mutable. If that seems incredible, just consider yourself. You see, speak, hear, touch, taste, walk, think and breathe. It is not a different you who does these various things, but one being who does them all. To understand how Atum makes all things, consider a farmer sowing seeds;
here wheat - there barley, Just as the same man plants all these seeds, so Atum sows immortality in heaven and change on Earth. Throughout the Cosmos he disseminates Life and movementthe two great elements that comprise Atum and his creation, and so everything that is. Page 48 Atum is called 'Father' because he begets all things, and, from his example, the wise hold begetting children the most sacred pursuit of human life. Atum works with Nature, within the laws of Necessity, causing extinction and renewal, constantly creating creation to display his wisdom. Yet, the things that the eye can see are mere phantoms and illusions. Only those things invisible to the eye are real. Above all are the ideas of Beauty and Goodness. Just as the eye cannot see the Being of Atum, so it cannot see these great ideas. They are attributes of Atum alone, and are inseparable from him. They are so perfectly without blemish that Atum himself is in love with them. There is nothing which Atum lacks, so nothing that he desires. There is nothing that Atum can lose, so nothing can cause him grief. Atum is everything. Atum makes everything, and everything is a part of Atum. Atum, therefore, makes himself. This is Atum's glory - he is all-creative, and this creating is his very Being. It is impossible for him ever to stop creatingfor Atum can never cease to be. Page 49 Atum is everywhere. Mind cannot be enclosed, because everything exists within Mind. Nothing is so quick and powerful. Just look at your own experience. Imagine yourself in any foreign land, and quick as your intention you will be there! Think of the ocean - and there you are. You have not moved as things move, but you have travelled, nevertheless. Fly up into the heavens - you won't need wings! Nothing can obstruct you - not the burning heat of the sun, or the swirling planets. Pass on to the limits of creation. Do you want to break out beyond the boundaries of the Cosmos? For your mind, even that is possible. Can you sense what power you possess? If you can do all this, then what about your Creator? Try and understand that Atum is Mind. This is how he contains the Cosmos. All things are thoughts which the Creator thinks."
Everything Is Energy and Science Has Proved It – Here Is How ... 14 Sep 2018 - Many spiritual traditions have viewed everything in the universe as part of an interconnected web of energy. ... Basically, there was a widespread belief that everything is energy or at least that a consciousness flows through everything. ... Quantum physics proves that solid matter does ... “If quantum mechanics hasn’t profoundly shocked you, you haven’t understood it yet. Everything we call real is made of things that cannot be regarded as real.” – Niels Bohr
energy' related words: work vitality electricity [598 more] Words Related to energy According to the algorithm that drives this word similarity engine, the top 5 related words for "energy" are: kinetic energy, work, radiant energy, vitality, and electricity.
Energy is from energos, an ancient Greek word that means "active or working.
Energy is from energos, an ancient Greek word that means "active or working.
" The word "energy" was first used in the scientific sense of mechanical or electrical energy in the 1800s. ENERGY ENERGIES ENERGISE ENERGISES ENERGISED ENERGISING
" The word "energy" was first used in the scientific sense of mechanical or electrical energy in the 1800s. ENERGY ENERGIES ENERGISE ENERGISES ENERGISED ENERGISING
5 x 23 = 115 LOOK AT THJE 5FIVES LOOK AT THE 5FIVES LOOK AT THE 5FIVES THE 5FIVES THE 5FIVES 5 x 23 = 115
LOOK AT THE 5FIVE5S LOOK AT THE 5FIVE5S LOOK AT THE 5FIVE5S THE 5FIVE5S THE 5FIVE5S
ISISIS ZERO ONE ONE ZERO NINE NINE NINE ONE TWO SIX SIX TWO ONE THREE FOUR FIVE FIVE FIVE FIVE FIFTY FOUR FOUR FIFTY THREE SIX NINE NINE SIX THREE EIGHTEEN EIGHTEEN THIRTY SIX SIX SIX THIRTY EIGHTEEN THIRTY SIX SIX THIRTY EIGHTEEN
THERE IS NO ATTEMPT MADE TO DESCRIBE THE CREATIVE PROCESS REALISTICALLY THE ACCOUNT IS SYMBOLIC AND SHOWS GOD CREATING THE WORLD BY MEANS OF LANGUAGE AS THOUGH WRITING A BOOK BUT LANGUAGE ENTIRELY TRANSFORMED THE MESSAGE OF CREATION IS CLEAR EACH LETTER OF THE ALPHABET IS GIVEN A NUMERICAL VALUE BY COMBINING THE LETTERS WITH THE SACRED NUMBERS REARRANGING THEM IN ENDLESS CONFIGURATIONS THE MYSTIC WEANED THE MIND AWAY FROM THE NORMAL CONNOTATIONS OF WORDS
I ME
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