VEDIC MATHEMATICS TEACHER'S MANUAL 3 ADVANCED LEVEL

Price: US $ 39.95

This book is designed for teachers of students aged from about 13 to 18 years. It shows how Vedic Mathematics can be used in a school course but does not cover all school topics (see contents). The book can be used for teachers who wish to learn the Vedic system or to teach courses on Vedic mathematics for this level. Non-teachers who have a background knowledge of mathematics may also find it appropriate (see contents).

Topics included: calculus, series, logs and exponentials, trigonometry (including solving trig equations, proving identities), solution of equations (special types, quadratics, cubics, transcendental), complex numbers, coordinate geometry, transformation geometry, Simple Harmonic Motion, projectile motion, forces in equilibrium, work & moments, etc

Title Description: Vedic Mathematics Teacher's Manual 3 , Advanced Level

Author : Kenneth R Williams
Bibliography : x, 167p., content, figs.,

PaperBack : ISBN : 8120827870

Price: US $ 39.95

This Manual is the third of three self-contained Manuals (elementary, intermediate and advanced) and is designed for adults with a good understanding of basic mathematics to learn or teach the Vedic system. So teachers could use it to learn Vedic Mathematics, or it could be used to teach a course on Vedic Mathematics. It is suitable for teachers of children aged about 13 to 18 years.

The eighteen lessons of this course are based on a series of one week summer courses given at Oxford University by the author to Swedish mathematics teachers between 1990 and 1995. Those courses were quite intensive consisting of eighteen, one and a half hour, lessons. Some of the material here is more advanced than would be given to the average 18 year old student but this is what the teachers wanted on the courses and so the same is given here.

The lessons in this book however probably contain more material than could be given in a one and a half hour lesson. The teacher/reader may wish to omit some sections, go through the material in a different sequence to that shown here or break up some sections.

All techniques are fully explained and proofs and explanations are given, the relevant Sutras are indicated throughout (these are listed at the end of this Manual) and, for convenience, answers are given after each exercise. Cross-references are given showing what alternative topics may be continued with at certain points.

It should also be noted that the Vedic system encourages mental work so we always encourage students to work mentally as long as it is comfortable. In the Cosmic Calculator Course pupils are given a short mental test at the start of most or all lessons, which makes a good start to the lesson, revises previous work and introduces some of the ideas needed in the current lesson. In the Vedic system pupils are encouraged to be creative and use whatever method they like.

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Some topics will not be found in this text: for example, there is no section on area and volume. This is because the actual methods are the same as currently taught so that the only difference would be to give the relevant Sutra(s).

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PREFACE

LESSON 1 : LEFT TO RIGHT CALCULATIONS

1.1 INTRODUCTION
1.2 ADDITION
1.3 MULTIPLICATION

Advantages OF LEFT TO RIGHT CALCULATION

1.4 WRITING LEFT TO RIGHT SUMS
1.5 SUBTRACTION
1.6 DIGIT SUMS
1.7 CHECKING DEVICES

CHECKING SUBTRACTION SUMS

1.8 ALL FROM 9 AND THE LAST FROM 10
1.8a SUBTRACTION FROM A BASE
1.8b BAR NUMBERS

ADVANTAGES OF BAR NUMBERS

1.8c GENERAL SUBTRACTION

LESSON 2 : SPECIAL METHODS

2.1 MULTIPLICATION NEAR A BASE
2.1a Numbers just below the base
2.1.b Above the base
2.1c Above and below
2.1d Proportionately
2.1e With different bases

2.2 MENTAL CALCULATIONS
2.3 SPECIAL NUMBERS

2.3a Repeating numbers
2.3b Proportionately
2.3c Disguises

2.4 DIVISION BY NINE

2.4a Adding Digits
2.4b A Short Cut
2.4c Dividing by 8
2.4d Algebraic Division
2.4e Dividing by 11, 12 etc.

LESSON 3 : RECURRING DECIMALS

3.1 DENOMINATOR ENDING IN 9
3.2 A SHORT CUT
3.3 PROPORTIONATELY
3.4 LONGER NUMERATORS
3.5 DENOMINATORS ENDING IN 8, 7, 6
3.6 DENOMINATORS ENDING IN 1
3.7 DENOMINATORS ENDING IN 2, 3, 4
3.8 WORKING 2, 3 ETC. FIGURES AT A TIME

LESSON 4 : TRIPLES

4.1 Definitions
4.2 Triples for 45°, 30° and 60
4.3 Triple Addition
4.4 Double Angle
4.5 Variations of 3,4,5
4.6 Quadrant Angles
4.7 Rotations

LESSON 5 :GENERAL MULTIPLICATION

5.1 TWO -Figure Numbers
       Explanation/ The Digit Sum Check
5.2 Moving Multiplier
5.3 Algebraic PRODUCTS
      The Digit Sum Check
5.4 Three-Figure Numbers
5.5 Four-Figure Numbers
5.6 Writing Left to Right Sums
5.7 From Right to Left
      setting the sums out
5.8 Using Bar Numbers

LESSON 6 : SOLUTION OF EQUATIONS

6.1 TRANSPOSE AND APPLY

        6.1a SIMPLE EQUATIONS
        6.1b MORE THAN ONE X TERM

6.2 SIMULTANEOUS EQUATIONS
6.2a GENERAL SOLUTION
6.2b Special Types

6.3 QUADRATIC EQUATIONS
6.4 ONE IN RATIO THE OTHER ONE ZERO
6.5 MERGERS

6.6 WHEN THE SAMUCCAYA IS THE SAME IT IS ZERO
6.6a    Samuccaya as a common factor
6.6b    Samuccaya as the Product of the Independent Terms
6.6c    Samuccaya as the Sum of the Denominators
6.6d    Samuccaya as a Combination or Total
           Proof/ EXTENSION
6.6 e other types

6.7 THE ULTIMATE AND TWICE THE PENULTIMATE
6.8 ONLY THE LAST TERMS
6.9 SUMMATION OF SERIES
6.10 FACTORISATION



LESSON 7 : SQUARES AND SQUARE ROOTS

7.1 Squaring 2-FIGURE NUMBERS
7.2 Algebraic Squaring
7.3 Squaring Longer Numbers
7.4 Written Calculations
7.4 a Left to Right
7.4 b    Right to Left
7.5 Square Roots of Perfect Squares

LESSON 8 : APPLICATIONS OF TRIPLES

8.1 Triple Subtraction
8.2 Triple Geometry
8.3 Angle Between Two Lines
8.4 Half Angle
8.5 Coordinate Geometry

8.5 a Gradients
8.5 b Length of Perpendicular
8.5 c Circle Problems
8.5 d EQUATION OF A LINE

8.6 COMPLEX NUMBERS

LESSON 9 : DIVISIBILITY

9.1 Elementary Parts
9.2 The Ekadhika
9.3 Osculation
       Explanation
9.4 Testing Longer Numbers
9.5 Other Divisors
9.6 The Negative Osculator
9.7 OSCULATING WITH GROUPS OF DIGITS

LESSON 10 : STRAIGHT DIVISION

10.1 Single Figure on the Flag
10.2 Short Division Digression
10.3 Longer Numbers
         Multiplication Reversed
10.4 Decimalising the Remainder
10.5 Negative Flag Digits
10.6 Larger Divisors
10.7 ALGEBRAIC DIVISION



LESSON 11 : SQUARE ROOTS

11.1 Squaring
11.2 Square Root of a Perfect square
11.2 a Preamble
11.2 b Two-Figure Answer
            Reversing Squaring
11.2 c Three-Figure Answer
            Reversing Squaring
11.3 General Square Roots
11.4 Changing the Divisor
         Heuristic Proof
11.5 ALGEBRAIC SQUARE ROOTS

LESSON 12 : TRIPLE TRIGONOMETRY

12.1COMPOUND ANGLES
12.2INVERSE FUNCTIONS
12.3THE GENERAL TRIPLE
12.4 TRIGONOMETRIC EQUATIONS
12.4aSIMPLE EQUATIONS
12.4b A SPECIAL TYPE

LESSON 13 : COMBINED OPERATIONS
13.1 Algebraic

13.2 Arithmetic
13.2 a SUMS OF PRODUCTS
13.2 b ADDITION AND DIVISION
13.2 c STRAIGHT DIVISION
13.2 d MEAN AND MEAN DEVIATION
13.2 e DIVIDING SUMS OF PRODUCTS
13,2 f VARIANCE

13.3 Pythagoras' Theorem

LESSON 14    SOLUTION OF POLYNOMIAL EQUATIONS
14.1        QUADRATIC EQUATIONS
        14.1a         x > 1
                           PROOF
        14.1b          x < Ц1
        14.1c          0 < x < 1
        14.1d          0 < x < 1 and x 2 Coefficient > 1
        14.1e          Ц1 < x < 0
        14.1f          x LARGE
14.2        HIGHER ORDER EQUATIONS
        14.2a            CUBE ROOT
        14.2b            CUBIC EQUATIONS
                            A SIMPLIFICATION
                            A CUBIC WITH 0 < x < 1
        14.2c            QUINTICS



LESSON 15    CALCULUS METHODS

15.1 Partial Fractions
15.2 Integration by СParts'
         TRUNCATING
15.3 BINOMIAL AND MACLAURIN THEOREMS
15.4 Derivatives of a Product
15.5 Derivative of A Quotient
15.6 Differential Equations Ц 1
15.7 Differential Equations Ц 2
15.8 Limits 220

LESSON 16 : APPLIED MATHEMATICS

16.1 SIMPLE HARMONIC MOTION
16.2 PROJECTILES
16.3 FORCES IN EQUILIBRIUM
16.4 WORK AND MOMENT

LESSON 17 : TRIGONOMETRIC FUNCTIONS
17.1 DERIVATIVES
17.2 SERIES EXPANSIONS

17.3 INVERSE TRIGONOMETRIC FUNCTIONS
17.3a DERIVATIVES
17.3b SERIES

17.4 EVALUATING TRIGONOMETRIC FUNCTIONS
17.4a COSINE
17.4b SINE
17.4c INVERSE TANGENT



LESSON 18 :TRIGONOMETRIC AND TRANSCENDENTAL EQUATIONS

18.1 POLYNOMIAL EQUATIONS
18.2 TRIGONOMETRIC EQUATIONS
18.3 TRANSCENDENTAL EQUATIONS
          KEPLER'S EQUATION

REFERENCES
SUTRAS AND SUB-SUTRAS
INDEX OF THE VEDIC FORMULAE INDEX
INDEX

LESSON 3 : RECURRING DECIMALS 3.1 DENOMINATOR ENDING IN 9 3.2 A SHORT CUT 3.3 PROPORTIONATELY 3.4 LONGER NUMERATORS 3.5 DENOMINATORS ENDING IN 8, 7, 6 3.6 DENOMINATORS ENDING IN 1 3.7 DENOMINATORS ENDING IN 2, 3, 4 3.8 WORKING 2, 3 ETC. FIGURES AT A TIME

LESSON 7 : SQUARES AND SQUARE ROOTS 7.1 Squaring 2-FIGURE NUMBERS 7.2 Algebraic Squaring 7.3 Squaring Longer Numbers 7.4 Written Calculations 7.4 a Left to Right 7.4 b Right to Left 7.5 Square Roots of Perfect Squares

LESSON 8 : APPLICATIONS OF TRIPLES 8.1 Triple Subtraction 8.2 Triple Geometry 8.3 Angle Between Two Lines 8.4 Half Angle 8.5 Coordinate Geometry 8.5 a Gradients 8.5 b Length of Perpendicular 8.5 c Circle Problems 8.5 d EQUATION OF A LINE 8.6 COMPLEX NUMBERS

LESSON 9 : DIVISIBILITY 9.1 Elementary Parts 9.2 The Ekadhika 9.3 Osculation Explanation 9.4 Testing Longer Numbers 9.5 Other Divisors 9.6 The Negative Osculator 9.7 OSCULATING WITH GROUPS OF DIGITS

LESSON 10 : STRAIGHT DIVISION 10.1 Single Figure on the Flag 10.2 Short Division Digression 10.3 Longer Numbers Multiplication Reversed 10.4 Decimalising the Remainder 10.5 Negative Flag Digits 10.6 Larger Divisors 10.7 ALGEBRAIC DIVISION

LESSON 11 : SQUARE ROOTS 11.1 Squaring 11.2 Square Root of a Perfect square 11.2 a Preamble 11.2 b Two-Figure Answer Reversing Squaring 11.2 c Three-Figure Answer Reversing Squaring 11.3 General Square Roots 11.4 Changing the Divisor Heuristic Proof 11.5 ALGEBRAIC SQUARE ROOTS

LESSON 12 : TRIPLE TRIGONOMETRY 12.1COMPOUND ANGLES 12.2INVERSE FUNCTIONS 12.3THE GENERAL TRIPLE 12.4 TRIGONOMETRIC EQUATIONS 12.4aSIMPLE EQUATIONS 12.4b A SPECIAL TYPE

LESSON 13 : COMBINED OPERATIONS 13.1 Algebraic 13.2 Arithmetic 13.2 a SUMS OF PRODUCTS 13.2 b ADDITION AND DIVISION 13.2 c STRAIGHT DIVISION 13.2 d MEAN AND MEAN DEVIATION 13.2 e DIVIDING SUMS OF PRODUCTS 13,2 f VARIANCE 13.3 Pythagoras' Theorem

LESSON 15 CALCULUS METHODS 15.1 Partial Fractions 15.2 Integration by СParts' TRUNCATING 15.3 BINOMIAL AND MACLAURIN THEOREMS 15.4 Derivatives of a Product 15.5 Derivative of A Quotient 15.6 Differential Equations Ц 1 15.7 Differential Equations Ц 2 15.8 Limits 220

LESSON 16 : APPLIED MATHEMATICS 16.1 SIMPLE HARMONIC MOTION 16.2 PROJECTILES 16.3 FORCES IN EQUILIBRIUM 16.4 WORK AND MOMENT

LESSON 17 : TRIGONOMETRIC FUNCTIONS 17.1 DERIVATIVES 17.2 SERIES EXPANSIONS 17.3 INVERSE TRIGONOMETRIC FUNCTIONS 17.3a DERIVATIVES 17.3b SERIES 17.4 EVALUATING TRIGONOMETRIC FUNCTIONS 17.4a COSINE 17.4b SINE 17.4c INVERSE TANGENT

LESSON 18 :TRIGONOMETRIC AND TRANSCENDENTAL EQUATIONS 18.1 POLYNOMIAL EQUATIONS 18.2 TRIGONOMETRIC EQUATIONS 18.3 TRANSCENDENTAL EQUATIONS KEPLER'S EQUATION

LESSON 3 : RECURRING DECIMALS

3.1 DENOMINATOR ENDING IN 9
3.2 A SHORT CUT
3.3 PROPORTIONATELY
3.4 LONGER NUMERATORS
3.5 DENOMINATORS ENDING IN 8, 7, 6
3.6 DENOMINATORS ENDING IN 1
3.7 DENOMINATORS ENDING IN 2, 3, 4
3.8 WORKING 2, 3 ETC. FIGURES AT A TIME

LESSON 7 : SQUARES AND SQUARE ROOTS

7.1 Squaring 2-FIGURE NUMBERS
7.2 Algebraic Squaring
7.3 Squaring Longer Numbers
7.4 Written Calculations
7.4 a Left to Right
7.4 b Right to Left
7.5 Square Roots of Perfect Squares

LESSON 8 : APPLICATIONS OF TRIPLES

8.1 Triple Subtraction
8.2 Triple Geometry
8.3 Angle Between Two Lines
8.4 Half Angle
8.5 Coordinate Geometry

8.5 a Gradients
8.5 b Length of Perpendicular
8.5 c Circle Problems
8.5 d EQUATION OF A LINE

8.6 COMPLEX NUMBERS

LESSON 9 : DIVISIBILITY

9.1 Elementary Parts
9.2 The Ekadhika
9.3 Osculation
Explanation
9.4 Testing Longer Numbers
9.5 Other Divisors
9.6 The Negative Osculator
9.7 OSCULATING WITH GROUPS OF DIGITS

LESSON 10 : STRAIGHT DIVISION

10.1 Single Figure on the Flag
10.2 Short Division Digression
10.3 Longer Numbers
Multiplication Reversed
10.4 Decimalising the Remainder
10.5 Negative Flag Digits
10.6 Larger Divisors
10.7 ALGEBRAIC DIVISION

LESSON 11 : SQUARE ROOTS

11.1 Squaring
11.2 Square Root of a Perfect square
11.2 a Preamble
11.2 b Two-Figure Answer
Reversing Squaring
11.2 c Three-Figure Answer
Reversing Squaring
11.3 General Square Roots
11.4 Changing the Divisor
Heuristic Proof
11.5 ALGEBRAIC SQUARE ROOTS

LESSON 12 : TRIPLE TRIGONOMETRY

12.1COMPOUND ANGLES
12.2INVERSE FUNCTIONS
12.3THE GENERAL TRIPLE
12.4 TRIGONOMETRIC EQUATIONS
12.4aSIMPLE EQUATIONS
12.4b A SPECIAL TYPE

LESSON 13 : COMBINED OPERATIONS
13.1 Algebraic

13.2 Arithmetic
13.2 a SUMS OF PRODUCTS
13.2 b ADDITION AND DIVISION
13.2 c STRAIGHT DIVISION
13.2 d MEAN AND MEAN DEVIATION
13.2 e DIVIDING SUMS OF PRODUCTS
13,2 f VARIANCE

13.3 Pythagoras' Theorem

LESSON 15 CALCULUS METHODS

15.1 Partial Fractions
15.2 Integration by СParts'
TRUNCATING
15.3 BINOMIAL AND MACLAURIN THEOREMS
15.4 Derivatives of a Product
15.5 Derivative of A Quotient
15.6 Differential Equations Ц 1
15.7 Differential Equations Ц 2
15.8 Limits 220

LESSON 16 : APPLIED MATHEMATICS

16.1 SIMPLE HARMONIC MOTION
16.2 PROJECTILES
16.3 FORCES IN EQUILIBRIUM
16.4 WORK AND MOMENT

LESSON 17 : TRIGONOMETRIC FUNCTIONS
17.1 DERIVATIVES
17.2 SERIES EXPANSIONS

17.3 INVERSE TRIGONOMETRIC FUNCTIONS
17.3a DERIVATIVES
17.3b SERIES

17.4 EVALUATING TRIGONOMETRIC FUNCTIONS
17.4a COSINE
17.4b SINE
17.4c INVERSE TANGENT

LESSON 18 :TRIGONOMETRIC AND TRANSCENDENTAL EQUATIONS

18.1 POLYNOMIAL EQUATIONS
18.2 TRIGONOMETRIC EQUATIONS
18.3 TRANSCENDENTAL EQUATIONS
KEPLER'S EQUATION