Articles Q&A
Courtesy of Submission.orgTHE QURAN , CHEMISTRY & CODE 19 By: Fereydun Majidi In the name of God, Most Gracious. Most Merciful Quran, God's Final Testament, was revealed to the world over 1400 years ago. The original Arabic Quran is mathematically coded by the number 19. The Mathematical Miracle of Quran remained hidden until Dr. Rashad Khalifa, by GOD's leave, discovered it in 1974, exactly 1406 (19x74) lunar years after the Quran was revealed. We learn from Quran that "Over it is Nineteen (19)" [Quran 74:30]. In addition to 19 being over the verses of Quran, Dr. Khalifa suggested that the number 19 is indeed The Creator's signature (App 38, Authorized English Translation of the Quran by Dr. Khalifa.).
In his search for chemical symmetry, the famous German scientist Dr. Peter Plichta recently discovered that the number 19 is a crucial link of the chemical elements and their formulation.("God's Secret Formula" by Peter Plichta) It is worth noting that Dr.Plichta was apparently unaware of the Quran's Mathematical Miracle. This discovery undoubtedly will have profound implications on our perception of Nature and GOD.
Dr. Plichta discovered that chemistry, physics, and biology are all connected and coded by the number 19, which directs Nature into specific organizations and structures. In this article, Dr. Plichta's findings with regards to the chemical periodic system (the Periodic Table of the Elements) will be highlighted and related, where appropriate, to the Quran's Mathematical Miracle.
What is chemistry ? What is physics ? Chemistry is the science concerned with the systematic study of the composition, properties, and activity of (organic and inorganic) substences and various elementary forms of matter. Whereas Physics deals with matter, energy, motion, and force.
Unlike most nuclear-scientists and theoretical physicists , Peter Plichta, like Arnold Sommerfeld, suspected that the basic elementary make up of matter must be governed by regularity. If a comprehensive unifying theme indeed exists, Dr. Plichta contended that it would undoubtedly have to be connected to the theory of numbers.
As a chemistry student, Dr. Plichta had noticed that all Earthly life is composed of the same building blocks, 19 left-handed amino acids and one lacking optical specificity (i.e. neither left- nor right-handed), Other amino acids are only produced artificially. All proteins and enzymes, which are absolutely essential for life, are constructed from these 19 + 1 naturally occuring amino acids. The Duesseldorfer chemist wondered why did God decide exactly on 19+1 amino acids? This marked the beginning of Dr. Plichta's research on the symmetry of matter and the number 19.The chemistry code and 19 Dr. Peter Plichta has made several interesting observations regarding the periodic table of the elements; all materials are made from combinations of these elements into compounds. He noticed that this basic periodic-system consists of over one hundred elements, from which eighty-one are stable (nonradioactive) Even though Thorium and Uranium (elements number 90 and 92, respectively) occur in nature (i.e. not synthetic elements), they are radioactive, and thus unstable. Other radioactive elements include elements 84 (Po), 85 (At), 86 (Rn), 87 (Fr), 88 (Ra), 89 (Ac), and 91 (Pa), which are generated from the disintegration of Thorium and Uranium. While one hundred and six elements are documented today in the periodic table of the elements, two of them are phantom elements with lifetimes on the order of seconds. Therefore, we are left with one hundred and four "actual" (long-lived) elements.
The non-chemist may remember that the elements are classified in the Periodic Table according to the number of protons, also known as the Atomic Number (Z). The atom of each element is composed of a nucleus that contains protons, positively charged particles, and neutrons, particles that are comparable in mass to protons but uncharged. The nucleus accounts for most of the atom's weight. Surrounding the nucleus in orbitals are electrons, negatively charged particles that are much lighter than protons. In the neutral form of the element, the number of electrons is equal to the number of protons. Thus naturally occurring stable elements possess 1 to 83 protons. For example, Hydrogen (the first element in the periodic table) has one proton and one electron, while Bismuth (element number 83 in the Periodic Table) has eighty-three protons and electrons. The Mass Number (A) is the sum of protons and neutrons (A = Z + N). An element may only have one Atomic Number, but could have several different Mass Numbers (i.e. different numbers of neutrons). These forms of an element with the same number of protons but different numbers of neutrons are isotopes. Hydrogen, for example, has two stable (nonradioactive) isotopes: 1H (A = 1 + 0 = 1) and 2H (A = 1 + 1 = 2). The hydrogen isotope with one proton and one neutron has a mass number of 2, and is commonly known as deterium. Table 1 presents all 81 stable and naturally occuring elements alongside their Atomic Number (# of protons) and number of isotopes.
Table 1: Table of the 81 stable and naturally occuring chemical elements
Element Atomic No Name Chemical symbol Number of Isotope 1 1 Hydrogen H 2 2 2 Helium He 2 3 3 Lithium Li 2 4 4 Beryllium Be 1 5 5 Bor B 2 6 6 Carbon C 2+1 7 7 Nitrogen N 2 8 8 Oxygen O 3 9 9 Fluorine F 1 10 10 Neon Ne 3 11 11 Sodium Na 1 12 12 Magnesium Mg 3 13 13 Aluminium Al 1 14 14 Silizium Si 3 15 15 Phosphorus P 1 16 16 Sulfur S 4 17 17 Chlorine Cl 2 18 18 Argon Ar 3 19 19 Potassium K 3 20 20 Calcium Ca 6 21 21 Scandium Sc 1 22 22 Titanium Ti 5 23 23 Vanadium V 2 24 24 Chromium Cr 4 25 25 Manganese Mn 1 26 26 Iron Fe 4 27 27 Cobalt Co 1 28 28 Nickel Ni 5 29 29 Copper Cu 2 30 30 Zinc Zn 5 31 31 Gallium Ga 2 32 32 Germanium Ge 5 33 33 Arsenic As 1 34 34 Selenium Se 6 35 35 Bromine Br 2 36 36 Krypton Kr 6 37 37 Rubidium Rb 2 38 38 Strontium Sr 4 39 39 Yttrium Y 1 40 40 Zirkonium Zr 5 41 41 Niobium Nb 1 42 42 Molybdenu Mo 7 missing 43 Technetium Tc 43 44 Ruthenium Ru 7 44 45 Rhodium Rh 1 45 46 Palladium Pd 6 46 47 Silver Ag 2 47 48 Cadmium Cd 8 48 49 Indium In 2 49 50 Tin Sn 10 50 51 Antimony Sb 2 51 52 Tellurium The 8 52 53 Iodine J 1 53 54 Xenon Xe 9 54 55 Caesium Cs 1 55 56 Barium Ba 7 56 57 Lanthan La 2 57 58 Cerium Ce 4 58 59 Praseodym Pr 1 59 60 Neodym Nd 7 missing 61 Promethiu Pm 60 62 Samarium Sm 7 61 63 Europium Eu 2 62 64 Gadolinium Gd 7 63 65 Terbium Tb 1 64 66 Dysprosium Dy 7 65 67 Holmium Ho 1 66 68 Erbium Er 6 67 69 Thulium Tm 1 68 70 Ytterbium Yb 7 69 71 Lutetium Lu 2 70 72 Hafnium Hf 6 71 73 Tantal Ta 2 72 74 Tungsten W 5 73 75 Rhenium Re 2 74 76 Osmium Os 7 75 77 Iridium Ir 2 76 78 Platinum Pt 6 77 79 Gold Au 1 78 80 Mercury Hg 7 79 81 Thallium Tl 2 80 82 Lead Pb 4 81 83 Bismuth Bi 1 Observation :
if we add up all the atomic numbers of the 81 stable and naturally occuring elements, we obtain a number that is a multiple of 19 :
(1+2+3+......+83) = 3382 = 19 x 178
The two synthetic elements 43 (Tc) and 61 (Pm) are not included.
***************************** The non-chemist will want to know, what does the concept of the "isotopes " mean in this table, and here is the explanation:
Frequently, the same number of neutrons exist with the same number of the protons in the atomic nucleus. Beryllium for example possesses 4 protons and 4 neutrons. Phosphorus consists of 15 protons and 15 neutrons in the nucleus. The chemists and physicists have introduced the concept of the "atomic weight " (or mass number) for the sum of all protons and neutrons of an element. The atomic weight of a material is therefore the sum of the protons + neutrons in the nucleus. With the element Beryllium, the atomic weight 4 (protons) + 4 (neutrons) = 8, and the atomic weight with the phosphorus is 15+15 = 30.
There is however a set of chemical elements, with which the number of the neutrons varies, although the number of protons remains the same in the nucleus. This variation of neutrons in the nucleus with same number of protons is called isotope. The isotope number announces the number of the variation of neutrons of the same element .Summary:
Isotope: any of two or more forms of an element having the same or very closely related chemical properties and the same atomic number but different atomic weight (or mass numbers) ; U-235, U-238, U-239 are three isotopes of Uranium.
Two elements are missing - why ? With his study of this table, Dr. Plichta noticed that in reality two elements are missing in the periodic system of the eighty-three stable elements: the elements with the atomic numbers 43 and 61, (because these elements with their corresponding number of protons are not naturally existing). If one produce them artificially, they are not at all stable. They are , Technetium and Promethium. Peter Plichta wondered whether the absence of these two elements in the nature can be a coincidence? His answer was no.
Since then, Dr. Plichta tried to find the answer to many questions, e.g., why are the elements 43 and 61 missing in the Nature? And , why are some of the elements do not exist only in one form? Why for example the element Chlorine occurs twice, namely with seventeen protons and eighteen neutrons, but also with seventeen protons and twenty neutrons? and why the radioactivity comes suddenly in play with the element 84 ?Now let's draw a parallel between the Quran and the two missing elements:
Remark 1 :
One can notice that from the element 43 to 61 inclusively we have 19 elements :
43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 Remark 2 :
In the Quran, the suras (sura= chapter) 43 and 61 have 2 common properties. :
- they are prime numbers .
- their sum with their respective verses plus the basmallah (opening verse) gives a number which is multiple of 19 .This property is very rare in the Quran because only 3 prime number suras added w