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VEDIC MATHEMATICS : Various Numbers

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Title: VEDIC MATHEMATICS : Various Numbers


1
VEDIC MATHEMATICS Various Numbers
  • T. K. Prasad
  • http//www.cs.wright.edu/tkprasad

2
Numbers
  • Whole Numbers
  • 1, 2, 3,
  • Counting
  • Natural Numbers
  • 0, 1, 2, 3,
  • Positional number system motivated the
    introduction of 0

3
  • Integers
  • , -3, -2, -1, 0, 1, 2, 3,
  • Negative numbers were motivated by solutions to
    linear equations.
  • What is x if (2 x 7 3)?

4
Fractions and Rational Numbers
  • 1/1, ½, ¾, 1/60, 1/365,
  • - 1/3, - 2/6, - 6/18,
  • Parts of a whole
  • Ratios
  • Percentages

5
Rational Number
  • A rational number is a number that can be
    expressed as a ratio of two integers (p / q) such
    that (q / 0) and (p and q do not have any
    common factors other than 1 or -1).
  • Decimal representation expresses a fraction as
    sum of parts of a sequence of powers of 10.
  • 0.125 1/10 2/100 5/1000

6
Rationals in decimal system
  • - ½ - 0.5
  • 22/7 3.142
  • 1 / 400 0.0025
  • Terminating decimal
  • 1/3 0. 3333
  • - recurs
  • 1/7 0.142857
  • --------- recurs
  • Recurring decimal

7
Computing Specific Reciprocals The Vedic Way
  • 1/39
  • The decimal representation is recurring.
  • Start from the rightmost digit with 1 (919) and
    keep multiplying by (31), propagating carry.
  • Terminate when 0 (with carry 1) is generated.
  • The reciprocal of 39 is 0.025641
  • 1
  • 41
  • 1641
  • 25641
  • 225641
  • 1025641

8
Computing Reciprocal of a Prime The Vedic Way
  • 1/19
  • The decimal representation is recurring.
  • Start from the rightmost digit with 1 (919) and
    keep multiplying by (11), propagating carry.
  • Terminate when 0 is generated.
  • The reciprocal of 19 is 0.052631578947368421
  • 1
  • 168421
  • 914713168421
  • 05126311151718 914713168421

9
Computing Recurring Decimals
  • The Vedic way of computing reciprocals is very
    compact but I have not found a general rule with
    universal applicability simpler than long
    division.
  • Note how the digits cycle below !
  • 1/7 0.142857
  • 2/7 0.285714
  • 3/7 0.428571
  • 4/7 0.571428
  • 5/7 0.714285
  • 6/7 0.857142

10
  • Rationals are dense.
  • Between any pair of rationals, there exists
    another rational.
  • Proof If r1 and r2 are rationals, then so is
    their midpoint/ average .
  • (r1 r2) / 2

11
Irrational Numbers
  • Numbers such as v2, v3, v5, etc are not rational.
  • Proof Assume that v2 is rational.
  • Then, v2 p/q, where p and q do not have any
    common factors (other than 1).
  • 2 p2 / q2 gt 2 q2 p2
  • 2 divides p gt 2 q2 (2 r)2
  • 2 divides q gt Contradiction

12
Pythagoras Theorem
The Pythagorean Theorem states that, in a right
angled triangle, the sum of the squares on the
two smaller sides (a,b) is equal to the square on
the hypotenuse (c) a2 b2 c2
a 1 b 2 c v5
13
History
  • Pythagoras (500 B.C.)
  • Euclid (300 B.C)
  • Proof in Elements
  • Book 1 Proposition 47
  • Baudhayana (800 B.C.)
  • Used in Sulabh Sutras
  • (appendix to Vedas).
  • Bhaskara (12th Century AD)
  • Proof given later

14
A Proof of Pythagoras Theorem
  • c2 a2 b2
  • Construct the green square of side (a b), and
    form the yellow quadrilateral.
  • All the four triangles are congruent by
    side-angle-side property. And the yellow figure
    is a square because the inner angles are 900.
  • c2 4(ab/2) (a b)2
  • c2 a2 b2

a
b
b
c
a
b
a
b
a
15
Bhaskaras Proof of Pythagoras Theorem (12th
century AD)
  • c2 a2 b2
  • Construct the pink square of side c, using the
    four congruent right triangles. (Check that the
    last triangle fits snugly in.)
  • The yellow quadrilateral is a square of side
    (a-b).
  • c2 4(ab/2) (a - b)2
  • c2 a2 b2

a-b
a
c
b
16
Algebraic Numbers
  • Numbers such as v2, v3, v5, etc are algebraic
    because they can arise as a solution to an
    algebraic equation.
  • x x 2
  • x x 3
  • Observe that even though rational numbers are
    dense, there are irrational gaps on the number
    line.

17
Irrational Numbers
  • Algebraic Numbers
  • v2 (1.4142), v3 (1.732...), v10( 3.162 ...),
    Golden ratio ( 1 v5/2 1.61803399), etc
  • Transcendental Numbers
  • (3.1415926 ) pi,
  • e (2.71327178 ) Natural Base, etc
  • ? Ratio of circumference of a circle to its
    diameter
  • e

18
History
Baudhayana (800 B.C.) gave an approximation to
the value of v2 as
and an approximate approach to finding a circle
whose area is the same as that of a square.
Manava (700 B.C.) gave an approximation to the
value of ? as 3.125.
19
Non-constructive Proof
  • Show that there are two irrational numbers a and
    b such that ab is rational.
  • Proof Take a b v2.
  • Case 1 If v2v2 is rational, then done.
  • Case 2 Otherwise, take a to be the irrational
    number v2v2 and b v2.
  • Then ab (v2v2)v2 v2v2v2 v22 2 which is
    rational.
  • Note that, in this proof, we still do not yet
    know which number (v2v2) or (v2v2)v2 is
    rational!

20
Complex Numbers
  • Real numbers
  • Rational numbers
  • Irrational numbers
  • Imaginary numbers
  • Numbers such as v-1, etc are not real because
    there does not exist a real number which when
    squared yields (-1).
  • x x -1
  • Numbers such as v-1 are called imaginary numbers.
  • Notation 5 4 v-1 5 4 i
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