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Mathematical miracles of the Quran

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WORD REPETITIONS IN THE QUR'AN :




The statement of "seven heavens" is repeated seven times. "The creation of the heavens (khalq as-samawat)" is also repeated seven times.

"Day (yawm)" is repeated 365 times in singular form, while its plural and dual forms "days (ayyam and yawmayn)" together are repeated 30 times. The number of repetitions of the word "month" (shahar) is 12.

The number of repetitions of the words "plant" and "tree" is the same: 26

The word "payment or reward" is repeated 117 times, while the expression "forgiveness" (mughfirah), which is one of the basic morals of the Qur'an, is repeated exactly twice that amount, 234 times.

When we count the word "Say," we find it appears 332 times. We arrive at the same figure when we count the phrase "they said."

The number of times the words, "world" (dunya) and "hereafter" (akhira) are repeated is also the same: 115

The word "satan" (shaitan) is used in the Qur'an 88 times, as is the word "angels" (malaika).

The word faith (iman) (without genitive) is repeated 25 times throughout the Qur'an as is also the word infidelity (kufr).

The words "paradise" and "hell" are each repeated 77 times.

The word "zakah" is repeated in the Qur'an 32 times and the number of repetitions of the word "blessing" (barakah) is also 32.

The expression "the righteous" (al-abraar) is used 6 times but "the wicked" (al-fujjaar) is used half as much, i.e., 3 times.

The number of times the words "Summer-hot" and "winter-cold" are repeated is the same: 5.

The words "wine" (khamr) and "intoxication" (saqara) are repeated in the Qur'an the same number of times: 6

The number of appearances of the words "mind" and "light" is the same: 49.

The words "tongue" and "sermon" are both repeated 25 times.

The words "benefit" and "corrupt" both appear 50 times.

"Reward" (ajr) and "action" (fail) are both repeated 107 times.

"Love" (al-mahabbah) and "obedience" (al-ta'ah) also appear the same number of times: 83

The words "refuge" (maseer) and "for ever" (abadan) appear the same number of times in the Qur'an: 28.

The words "disaster" (al-musibah) and "thanks" (al-shukr) appear the same number of times in the Qur'an: 75.

"Sun" (shams) and "light" (nur) both appear 33 times in the Qur'an.

In counting the word "light" only the simple forms of the word were included.
The number of appearances of "right guidance" (al-huda) and "mercy" (al-rahma) is the same: 79

The words "trouble" and "peace" are both repeated 13 times in the Qur'an.

The words "man" and "woman" are also employed equally: 23 times.


------------
Will they not ponder the Qur’an? If it had been from other than Allah, they would have found many inconsistencies in it.
(Qur’an, 4:82)
------------

The number of times the words "man" and "woman" are repeated in the Qur'an, 23, is at the same time that of the chromosomes from the egg and sperm in the formation of the human embryo. The total number of human chromosomes is 46; 23 each from the mother and father.

"Treachery" (khiyanah) is repeated 16 times, while the number of repetitions of the word "foul" (khabith) is 16.

"Human being" is used 65 times: the sum of the number of references to the stages of man's creation is the same: i.e.

Human being 65

Soil (turab) 17

Drop of Sperm (nutfah) 12

Embryo ('alaq) 6

A half formed lump of flesh (mudghah) 3

Bone ('idham) 15

Flesh (lahm) 12

TOTAL 65

The word "salawat" appear five times in the Qur'an, and Allah has commanded man to perform the prayer (salat) five times a day.

The word "land" appears 13 times in the Qur'an and the word "sea" 32 times, giving a total of 45 references. If we divide that number by that of the number of references to the land we arrive at the figure 28.888888888889%. The number of total references to land and sea, 45, divided by the number of references to the sea in the Qur'an, 32, is 71.111111111111%. Extraordinarily, these figures represent the exact proportions of land and sea on the Earth today.238

....................


Allah is most great
 
It is easy to play with numbers to come up with anything. If you find a factor or a similar ratio in nature (and there are many of them) you can try to claim a success. However, a real success would be if something had been presented that was not known beforehand. For example, if the ratio of land to water was given plainly.

I once was listening to a radio show. I think it was Art Bell or something. Some guy was on there talking about the Egyptian pyramids. He said something like "If you take the lattitude and longitude and multiply them and take the middle digits and divide those by the number of months. Add to it the number of planets and divide by the number of moons of Jupiter and you get 2001, which is the year that the aliens will return."

Anyone can make up any relationship with numbers. The difference is this guy made a theory (aliens will return) that could be proven wrong (which he was).

Quath
 
Frost said:
The word "salawat" appear five times in the Qur'an, and Allah has commanded man to perform the prayer (salat) five times a day.
Click to expand...

Prove this. Give me the surah/verses. There are over 40 surah/verses which mention the word "prayer".

:o
 
salawat

HEy man

it didn't say prayer



"""" Salawat """"

which is plural .


And it's true

The word salawat is 5 times

sura Al baqara : 157

sura Al baqara : 238

Sura Touba : 99

Sura Hajj : 40

Sura Al mu'minoon : 9
 
not an excuse

Quath.

That is not an Excuse .


For these repitions are 100% true and it's the Word of God .


God doesnt make up things . And you know God doesnt make a theory .


What he says is true and right !
 
Re: Mathematical lies

Frost-X said:
WORD REPETITIONS IN THE QUR'AN :

"Day (yawm)" is repeated 365 times in singular form, while its plural and dual forms "days (ayyam and yawmayn)" together are repeated 30 times.....
Click to expand...

Oh dear.... more manipulation of the numbers and the words!

475 days in the year... read on about the 365 day hoax

:o :o
 
Ok gary

I have no idea why you insist on advertising this site for it does not Stand for Islam , it stands for Ignorance about Islam.

I wonder who invented Mathimatics ?

I wonder who navigated christopher columbu's ship to the already discovered America since people were already living there .

And where did you get the 475 ? do you need our help ?
 
Frost-X said:
I wonder who invented Mathimatics?
Click to expand...

No need to wonder who "invented" mathematics....

Mathematics starts with counting. It is not reasonable, however, to suggest that early counting was mathematics. Only when some record of the counting was kept and, therefore, some representation of numbers occurred can mathematics be said to have started.

In Babylonia mathematics developed from 2000 BC. Earlier a place value notation number system had evolved over a lengthy period with a number base of 60. It allowed arbitrarily large numbers and fractions to be represented and so proved to be the foundation of more high powered mathematical development.

Number problems such as that of the Pythagorean triples (a,b,c) with a2+b2 = c2 were studied from at least 1700 BC. Systems of linear equations were studied in the context of solving number problems. Quadratic equations were also studied and these examples led to a type of numerical algebra.

Geometric problems relating to similar figures, area and volume were also studied and values obtained for p.

The Babylonian basis of mathematics was inherited by the Greeks and independent development by the Greeks began from around 450 BC. Zeno of Elea's paradoxes led to the atomic theory of Democritus. A more precise formulation of concepts led to the realisation that the rational numbers did not suffice to measure all lengths. A geometric formulation of irrational numbers arose. Studies of area led to a form of integration.

The theory of conic sections show a high point in pure mathematical study by Apollonius. Further mathematical discoveries were driven by the astronomy, for example the study of trigonometry.

The major Greek progress in mathematics was from 300 BC to 200 AD. After this time progress continued in Islamic countries. Mathematics flourished in particular in Iran, Syria and India. This work did not match the progress made by the Greeks but in addition to the Islamic progress, it did preserve Greek mathematics. From about the 11th Century Adelard of Bath, then later Fibonacci, brought this Islamic mathematics and its knowledge of Greek mathematics back into Europe.

Major progress in mathematics in Europe began again at the beginning of the 16th Century with Pacioli, then Cardan, Tartaglia and Ferrari with the algebraic solution of cubic and quartic equations. Copernicus and Galileo revolutionised the applications of mathematics to the study of the universe.

The progress in algebra had a major psychological effect and enthusiasm for mathematical research, in particular research in algebra, spread from Italy to Stevin in Belgium and Viète in France.

The 17th Century saw Napier, Briggs and others greatly extend the power of mathematics as a calculatory science with his discovery of logarithms. Cavalieri made progress towards the calculus with his infinitesimal methods and Descartes added the power of algebraic methods to geometry.

Progress towards the calculus continued with Fermat, who, together with Pascal, began the mathematical study of probability. However the calculus was to be the topic of most significance to evolve in the 17th Century.

Newton, building on the work of many earlier mathematicians such as his teacher Barrow, developed the calculus into a tool to push forward the study of nature. His work contained a wealth of new discoveries showing the interaction between mathematics, physics and astronomy. Newton's theory of gravitation and his theory of light take us into the 18th Century.

However we must also mention Leibniz, whose much more rigorous approach to the calculus (although still unsatisfactory) was to set the scene for the mathematical work of the 18th Century rather than that of Newton. Leibniz's influence on the various members of the Bernoulli family was important in seeing the calculus grow in power and variety of application.

The most important mathematician of the 18th Century was Euler who, in addition to work in a wide range of mathematical areas, was to invent two new branches, namely the calculus of variations and differential geometry. Euler was also important in pushing forward with research in number theory begun so effectively by Fermat.

Toward the end of the 18th Century, Lagrange was to begin a rigorous theory of functions and of mechanics. The period around the turn of the century saw Laplace's great work on celestial mechanics as well as major progress in synthetic geometry by Monge and Carnot.

The 19th Century saw rapid progress. Fourier's work on heat was of fundamental importance. In geometry Plücker produced fundamental work on analytic geometry and Steiner in synthetic geometry.

Non-euclidean geometry developed by Lobachevsky and Bolyai led to characterisation of geometry by Riemann. Gauss, thought by some to be the greatest mathematician of all time, studied quadratic reciprocity and integer congruences. His work in differential geometry was to revolutionise the topic. He also contributed in a major way to astronomy and magnetism.

The 19th Century saw the work of Galois on equations and his insight into the path that mathematics would follow in studying fundamental operations. Galois' introduction of the group concept was to herald in a new direction for mathematical research which has continued through the 20th Century.

Cauchy, building on the work of Lagrange on functions, began rigorous analysis and began the study of the theory of functions of a complex variable. This work would continue through Weierstrass and Riemann.

Algebraic geometry was carried forward by Cayley whose work on matrices and linear algebra complemented that by Hamilton and Grassmann. The end of the 19th Century saw Cantor invent set theory almost single handedly while his analysis of the concept of number added to the major work of Dedekind and Weierstrass on irrational numbers

Analysis was driven by the requirements of mathematical physics and astronomy. Lie's work on differential equations led to the study of topological groups and differential topology. Maxwell was to revolutionise the application of analysis to mathematical physics. Statistical mechanics was developed by Maxwell, Boltzmann and Gibbs. It led to ergodic theory.

The study of integral equations was driven by the study of electrostatics and potential theory. Fredholm's work led to Hilbert and the development of functional analysis.

Read more here:
http://www-history.mcs.st-and.ac.uk/his ... rview.html

:bday: :bday: :bday:
 
hmmm i just read your post to frost-x

it seems that counting and mathematics are the same in your opinion???? algebra, geometry etc....counting???...hmm thank god someone invented earlier on ...ok ok....let me post something here for you in which you may not know:)

Al Khawarizmi: (775-835 A.D./173-233 Hijri)

Abu Abdullah Mohammad Ibn Musa Al Khawarizmi was born in Khawarizm, and later went on to Bagdad to work at Al Hikma Library at the time of Kalif Al Mamoun. He earned an outstanding reputation in the study of mathematics and astronomy, and was the first to treat algebra as a science distinct from mathematics. Al Khawarizmi wrote many books, namely "The First Ephemeris" and " The Second Ephemeris" (also known as "The Hind Sing"), "Al Rikhama", "The Work with the Astrolabe", and "Arithmetic". He also wrote a geographical book entitled "The Picture of the Earth". His most famous book, however, was "Algebra and Collation". Al Khawarizmi was the first to introduce the Arabic system of numerals to Europe.

The numbers we are using... 1 2 3 etc.....are from this person:)....hmmm still in doubt?

hopefearmercy
 
You said.... "He earned an outstanding reputation in the study of mathematics..."

So mathematics already existed! That was my point.

:bday:
 
Sir Gary

Well Gary

I agree with my mom & your point .


Math existed .

But Aljebra wasn't and the number 0 wasn't .

Alkhawarizmi Invented it .

And he invent Most of the mathimatics.

Read about the scholars

Ibn Haitham
Al Khawarizmi
Ibn seena

And many others
 
Frost, are you at home with your mother? Do you share a computer?
 
sorry Gary

Nope , you are wrong


Al khawarimi is the First man to use or should i say ( Invent ) the number zero.


before him they would just say nothing .


And yes my mom and i use the same Pc .

she replies when shes on and i reply when i am on .

but i think shes way better than i am
 
Happyface_0MW.gif
Zero

“The first recorded zero is attributed to the Babylonians in the 3rd century BC. A long period followed when no one else used a zero place holder. But then the Mayans, halfway around the world in Central America, independently invented zero in the fourth century CE. The final independent invention of zero in India was long debated by scholars, but seems to be set around the middle of the fifth century. It spread to Cambodia around the end of the 7th century. From India it moved into China and then to the Islamic countries. Zero finally reached western Europe in the 12th century.†Source -- http://www.mediatinker.com/whirl/zero/zero.html

The website has a great picture on the origin of Zero.


Kind Regards
Farside
21.gif
 
farside

farside


that i am sorry to say is incorrect .


dont bring me the source from the site .


Bring it to me from the Books .

you can find his books in the London mesuem
 
reading.gif
Zero

Robert Kaplan has written The Nothing That Is: A Natural History of Zero (a book) and teaches at Harvard University. He provides this answer:

“The first evidence we have of zero is from the Sumerian culture in Mesopotamia, some 5,000 years ago. There a slanted double wedge was inserted between cuneiform symbols for numbers, written positionally, to indicate the absence of a number in a place (as we would write 102, the '0' indicating no digit in the tens column). . . . .The symbol changed over time as positional notation, for which zero was crucial, made its way to the Babylonian empire and from there to India, via the Greeks (in whose own culture zero made a late and only occasional appearance; the Romans had no trace of it at all). Arab merchants brought the zero they found in India to the West “

source -- http://www.sciam.com/askexpert_question ... 9EC588F2D7


Kind Regards,
Farside
21.gif
 
:)

but it is cool....that little round 0....was used with symbols but yet not numbers...hmm....

hopefearmercy:)
 
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