| Preface |
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xiv | |
| Syllabus guidance |
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xvi | |
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Section A Number and algebra |
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1 | (86) |
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3 | (1) |
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3 | (1) |
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1.2 Revision of basic laws |
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3 | (2) |
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1.3 Revision of equations |
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5 | (4) |
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9 | (2) |
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11 | (2) |
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1.6 The remainder theorem |
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13 | (4) |
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17 | (7) |
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2.1 Introduction to partial fractions |
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17 | (1) |
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2.2 Partial fractions with linear factors |
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17 | (3) |
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2.3 Partial fractions with repeated linear factors |
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20 | (2) |
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2.4 Partial fractions with quadratic factors |
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22 | (2) |
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24 | (8) |
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3.1 Introduction to logarithms |
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24 | (2) |
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26 | (2) |
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28 | (2) |
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3.4 Graphs of logarithmic functions |
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30 | (2) |
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32 | (16) |
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4.1 Introduction to exponential functions |
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32 | (1) |
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4.2 The power series for ex |
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33 | (2) |
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4.3 Graphs of exponential functions |
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35 | (1) |
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36 | (4) |
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4.5 Laws of growth and decay |
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40 | (3) |
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4.6 Reduction of exponential laws to linear form |
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43 | (4) |
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47 | (1) |
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48 | (9) |
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48 | (2) |
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50 | (1) |
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5.3 Worked problems on the binomial series |
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50 | (1) |
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5.4 Further worked problems on the binomial series |
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51 | (3) |
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5.5 Practical problems involving the binomial theorem |
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54 | (3) |
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6 Solving equations by iterative methods |
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57 | (8) |
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6.1 Introduction to iterative methods |
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57 | (1) |
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58 | (3) |
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6.3 An algebraic method of successive approximations |
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61 | (4) |
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7 Boolean algebra and logic circuits |
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65 | (22) |
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7.1 Boolean algebra and switching circuits |
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66 | (4) |
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7.2 Simplifying Boolean expressions |
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70 | (1) |
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7.3 Laws and rules of Boolean algebra |
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70 | (2) |
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72 | (1) |
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73 | (4) |
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77 | (4) |
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7.7 Universal logic gates |
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81 | (4) |
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85 | (2) |
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Section B Geometry and trigonometry |
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87 | (102) |
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8 Introduction to trigonometry |
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89 | (22) |
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90 | (1) |
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8.2 The theorem of Pythagoras |
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90 | (1) |
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8.3 Trigonometric ratios of acute angles |
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91 | (2) |
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8.4 Evaluating trigonometric ratios |
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93 | (4) |
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8.5 Solution of right-angled triangles |
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97 | (2) |
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8.6 Angles of elevation and depression |
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99 | (1) |
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8.7 Sine and cosine rules |
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100 | (1) |
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101 | (1) |
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8.9 Worked problems on the solution of triangles and finding their areas |
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101 | (1) |
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8.10 Further worked problems on solving triangles and finding their areas |
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102 | (2) |
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8.11 Practical situations involving trigonometry |
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104 | (2) |
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8.12 Further practical situations involving trigonometry |
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106 | (5) |
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9 Cartesian and polar co-ordinates |
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111 | (6) |
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112 | (1) |
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9.2 Changing from Cartesian into polar co-ordinates |
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112 | (2) |
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9.3 Changing from polar into Cartesian co-ordinates |
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114 | (1) |
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9.4 Use of Pol/Rec functions on calculators |
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115 | (2) |
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10 The circle and its properties |
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117 | (15) |
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117 | (1) |
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10.2 Properties of circles |
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117 | (2) |
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119 | (1) |
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10.4 Arc length and area of circles and sectors |
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120 | (3) |
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10.5 The equation of a circle |
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123 | (2) |
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10.6 Linear and angular velocity |
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125 | (1) |
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126 | (4) |
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130 | (2) |
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11 Trigonometric waveforms |
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132 | (19) |
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11.1 Graphs of trigonometric functions |
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132 | (1) |
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11.2 Angles of any magnitude |
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133 | (3) |
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11.3 The production of a sine and cosine wave |
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136 | (1) |
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11.4 Sine and cosine curves |
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137 | (4) |
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11.5 Sinusoidal form A sin(ωt ±α) |
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141 | (3) |
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11.6 Harmonic synthesis with complex waveforms |
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144 | (7) |
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151 | (10) |
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12.1 Introduction to hyperbolic functions |
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151 | (2) |
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12.2 Graphs of hyperbolic functions |
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153 | (2) |
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12.3 Hyperbolic identities |
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155 | (2) |
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12.4 Solving equations involving hyperbolic functions |
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157 | (2) |
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12.5 Series expansions for cosh x and sinh x |
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159 | (2) |
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13 Trigonometric identities and equations |
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161 | (8) |
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13.1 Trigonometric identities |
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161 | (1) |
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13.2 Worked problems on trigonometric identities |
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162 | (1) |
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13.3 Trigonometric equations |
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163 | (1) |
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13.4 Worked problems (i) on trigonometric equations |
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164 | (1) |
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13.5 Worked problems (ii) on trigonometric equations |
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165 | (1) |
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13.6 Worked problems (iii) on trigonometric equations |
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166 | (1) |
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13.7 Worked problems (iv) on trigonometric equations |
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166 | (3) |
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14 The relationship between trigonometric and hyperbolic functions |
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169 | (4) |
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14.1 The relationship between trigonometric and hyperbolic functions |
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169 | (1) |
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14.2 Hyperbolic identities |
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170 | (3) |
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173 | (16) |
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15.1 Compound angle formulae |
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173 | (2) |
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15.2 Conversion of a sin ωt + b cos cot ωt into R sin(ωt + α) |
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175 | (4) |
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179 | (2) |
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15.4 Changing products of sines and cosines into sums or differences |
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181 | (1) |
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15.5 Changing sums or differences of sines and cosines into products |
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182 | (1) |
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15.6 Power waveforms in a.c. circuits |
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183 | (4) |
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187 | (2) |
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189 | (36) |
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16 Functions and their curves |
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191 | (22) |
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191 | (3) |
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16.2 Simple transformations |
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194 | (5) |
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199 | (1) |
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16.4 Continuous and discontinuous functions |
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199 | (1) |
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16.5 Even and odd functions |
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200 | (1) |
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201 | (2) |
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203 | (5) |
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16.8 Brief guide to curve sketching |
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208 | (1) |
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16.9 Worked problems on curve sketching |
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208 | (5) |
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17 Irregular areas, volumes and mean values of waveforms |
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213 | (12) |
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17.1 Areas of irregular figures |
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213 | (3) |
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17.2 Volumes of irregular solids |
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216 | (1) |
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17.3 The mean or average value of a waveform |
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217 | (6) |
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223 | (2) |
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Section D Complex numbers |
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225 | (26) |
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227 | (14) |
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18.1 Cartesian complex numbers |
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228 | (1) |
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229 | (1) |
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18.3 Addition and subtraction of complex numbers |
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229 | (1) |
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18.4 Multiplication and division of complex numbers |
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230 | (2) |
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232 | (1) |
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18.6 The polar form of a complex number |
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233 | (2) |
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18.7 Multiplication and division in polar form |
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235 | (1) |
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18.8 Applications of complex numbers |
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236 | (5) |
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241 | (10) |
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242 | (1) |
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19.2 Powers of complex numbers |
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242 | (1) |
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19.3 Roots of complex numbers |
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243 | (2) |
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19.4 The exponential form of a complex number |
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245 | (1) |
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19.5 Introduction to locus problems |
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246 | (5) |
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Section E Matrices and determinants |
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251 | (32) |
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20 The theory of matrices and determinants |
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253 | (12) |
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253 | (1) |
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20.2 Addition, subtraction and multiplication of matrices |
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254 | (3) |
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257 | (1) |
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20.4 The determinant of a 2 by 2 matrix |
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257 | (1) |
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20.5 The inverse or reciprocal of a 2 by 2 matrix |
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258 | (1) |
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20.6 The determinant of a 3 by 3 matrix |
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259 | (2) |
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20.7 The inverse or reciprocal of a 3 by 3 matrix |
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261 | (4) |
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21 Applications of matrices and determinants |
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265 | (18) |
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21.1 Solution of simultaneous equations by matrices |
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266 | (2) |
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21.2 Solution of simultaneous equations by determinants |
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268 | (3) |
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21.3 Solution of simultaneous equations using Cramer's rule |
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271 | (1) |
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21.4 Solution of simultaneous equations using the Gaussian elimination method |
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272 | (2) |
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274 | (1) |
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21.6 Eigenvalues and eigenvectors |
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275 | (6) |
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281 | (2) |
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Section F Vector geometry |
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283 | (42) |
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285 | (16) |
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285 | (1) |
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285 | (1) |
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286 | (1) |
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22.4 Addition of vectors by drawing |
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287 | (2) |
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22.5 Resolving vectors into horizontal and vertical components |
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289 | (1) |
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22.6 Addition of vectors by calculation |
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290 | (5) |
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295 | (2) |
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297 | (1) |
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298 | (3) |
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23 Methods of adding alternating waveforms |
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301 | (11) |
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23.1 Combination of two periodic functions |
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301 | (1) |
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23.2 Plotting periodic functions |
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302 | (1) |
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23.3 Determining resultant phasors by drawing |
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303 | (2) |
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23.4 Determining resultant phasors by the sine and cosine rules |
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305 | (1) |
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23.5 Determining resultant phasors by horizontal and vertical components |
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306 | (2) |
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23.6 Determining resultant phasors by using complex numbers |
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308 | (4) |
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24 Scalar and vector products |
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312 | (13) |
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312 | (1) |
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24.2 The scalar product of two vectors |
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313 | (4) |
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317 | (4) |
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24.4 Vector equation of a line |
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321 | (2) |
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323 | (2) |
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Section G Differential calculus |
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325 | (96) |
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25 Methods of differentiation |
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327 | (13) |
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25.1 Introduction to calculus |
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327 | (1) |
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25.2 The gradient of a curve |
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327 | (1) |
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25.3 Differentiation from first principles |
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328 | (1) |
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25.4 Differentiation of common functions |
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329 | (3) |
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25.5 Differentiation of a product |
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332 | (2) |
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25.6 Differentiation of a quotient |
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334 | (1) |
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25.7 Function of a function |
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335 | (2) |
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25.8 Successive differentiation |
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337 | (3) |
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26 Some applications of differential inn |
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340 | (23) |
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340 | (2) |
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26.2 Velocity and acceleration |
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342 | (3) |
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26.3 The Newton-Raphson method |
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345 | (3) |
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348 | (3) |
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26.5 Practical problems involving maximum and minimum values |
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351 | (4) |
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355 | (2) |
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26.7 Tangents and normals |
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357 | (1) |
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358 | (4) |
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362 | (1) |
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27 Differentiation of parametric equations |
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363 | (6) |
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27.1 Introduction to parametric equations |
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363 | (1) |
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27.2 Some common parametric equations |
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364 | (1) |
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27.3 Differentiation in parameters |
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364 | (2) |
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27.4 Further worked problems on differentiation of parametric equations |
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366 | (3) |
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28 Differentiation of implicit functions |
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369 | (6) |
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369 | (1) |
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28.2 Differentiating implicit functions |
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369 | (1) |
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28.3 Differentiating implicit functions containing products and quotients |
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370 | (1) |
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28.4 Further implicit differentiation |
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371 | (4) |
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29 Logarithmic differentiation |
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375 | (7) |
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29.1 Introduction to logarithmic differentiation |
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375 | (1) |
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375 | (1) |
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29.3 Differentiation of logarithmic functions |
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376 | (1) |
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29.4 Differentiation of further logarithmic functions |
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376 | (2) |
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29.5 Differentiation of [ f(x)]x |
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378 | (3) |
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381 | (1) |
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30 Differentiation of hyperbolic functions |
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382 | (4) |
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30.1 Standard differential coefficients of hyperbolic functions |
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382 | (1) |
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30.2 Further worked problems on differentiation of hyperbolic functions |
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383 | (3) |
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31 Differentiation of inverse trigonometric and hyperbolic functions |
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386 | (11) |
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386 | (2) |
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31.2 Differentiation of inverse trigonometric functions |
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388 | (3) |
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31.3 Logarithmic forms of the inverse hyperbolic functions |
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391 | (2) |
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31.4 Differentiation of inverse hyperbolic functions |
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393 | (4) |
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32 Partial differentiation |
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397 | (7) |
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32.1 Introduction to partial derivatives |
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397 | (1) |
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32.2 First-order partial derivatives |
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397 | (3) |
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32.3 Second-order partial derivatives |
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400 | (4) |
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33 Total differential, rates of change and small changes |
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404 | (7) |
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404 | (1) |
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405 | (3) |
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408 | (3) |
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34 Maxima, minima and saddle points for functions of two variables |
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411 | (10) |
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34.1 Functions of two independent variables |
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411 | (1) |
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34.2 Maxima, minima and saddle points |
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412 | (1) |
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34.3 Procedure to determine maxima, minima and saddle points for functions of two variables |
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413 | (1) |
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34.4 Worked problems on maxima, minima and saddle points for functions of two variables |
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413 | (2) |
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34.5 Further worked problems on maxima, minima and saddle points for functions of two variables |
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415 | (5) |
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420 | (1) |
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Section H Integral calculus |
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421 | (102) |
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423 | (8) |
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35.1 The process of integration |
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423 | (1) |
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35.2 The general solution of integrals of the form axn |
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424 | (1) |
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424 | (3) |
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427 | (4) |
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36 Some applications of integration |
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431 | (19) |
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432 | (1) |
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36.2 Areas under and between curves |
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432 | (1) |
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433 | (2) |
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36.4 Volumes of solids of revolution |
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435 | (1) |
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436 | (2) |
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438 | (2) |
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36.7 Second moments of area of regular sections |
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440 | (9) |
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449 | (1) |
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37 Maclaurin's series and limiting values |
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450 | (11) |
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451 | (1) |
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37.2 Derivation of Maclaurin's theorem |
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451 | (1) |
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37.3 Conditions of Maclaurin's series |
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452 | (1) |
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37.4 Worked problems on Maclaurin's series |
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452 | (3) |
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37.5 Numerical integration using Maclaurin's series |
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455 | (2) |
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457 | (4) |
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38 Integration using algebraic substitutions |
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461 | (6) |
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461 | (1) |
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38.2 Algebraic substitutions |
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461 | (1) |
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38.3 Worked problems on integration using algebraic substitutions |
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462 | (1) |
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38.4 Further worked problems on integration using algebraic substitutions |
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463 | (1) |
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464 | (3) |
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39 Integration using trigonometric and hyperbolic substitutions |
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467 | (12) |
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467 | (1) |
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39.2 Worked problems on integration of sin2 x, cos2 x, tan2 x and cot2 x |
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467 | (3) |
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39.3 Worked problems on integration of powers of sines and cosines |
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470 | (1) |
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39.4 Worked problems on integration of products of sines and cosines |
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471 | (1) |
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39.5 Worked problems on integration using the sin θ substitution |
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472 | (2) |
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39.6 Worked problems on integration using the tan θ substitution |
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474 | (1) |
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39.7 Worked problems on integration using the sinh θ substitution |
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474 | (2) |
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39.8 Worked problems on integration using the cosh θ substitution |
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476 | (3) |
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40 Integration using partial fractions |
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479 | (6) |
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479 | (1) |
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40.2 Integration using partial fractions with linear factors |
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479 | (2) |
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40.3 Integration using partial fractions with repeated linear factors |
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481 | (1) |
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40.4 Integration using partial fractions with quadratic factors |
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482 | (3) |
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41 The t = tan θ/2 substitution |
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485 | (6) |
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485 | (1) |
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41.2 Worked problems on the t = tan θ/2 substitution |
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486 | (1) |
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41.3 Further worked problems on the t = tan θ/2 substitution |
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487 | (3) |
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490 | (1) |
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491 | (6) |
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491 | (1) |
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42.2 Worked problems on integration by parts |
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491 | (2) |
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42.3 Further worked problems on integration by parts |
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493 | (4) |
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497 | (9) |
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497 | (1) |
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43.2 Using reduction formulae for integrals of the form ∞xnexdx |
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497 | (1) |
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43.3 Using reduction formulae for integrals of the form ∞xncosxdx and ∞xnsinxdx |
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498 | (3) |
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43.4 Using reduction formulae for integrals of the form ∞sinnxdx and ∞cosnxdx |
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501 | (2) |
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43.5 Further reduction formulae |
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503 | (3) |
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44 Double and triple integrals |
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506 | (6) |
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506 | (2) |
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508 | (4) |
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512 | (11) |
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512 | (1) |
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45.2 The trapezoidal rule |
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512 | (3) |
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45.3 The mid-ordinate rule |
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515 | (1) |
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516 | (4) |
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45.5 Accuracy of numerical integration |
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520 | (1) |
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521 | (2) |
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Section I Differential equations |
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523 | (94) |
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46 Introduction to differential equations |
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525 | (9) |
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525 | (1) |
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46.2 Differential equations |
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526 | (1) |
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46.3 The solution of equations of the form dy/dx = ∞(x) |
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527 | (1) |
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46.4 The solution of equations of the form dy/dx = ∞(y) |
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528 | (2) |
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46.5 The solution of equations of the form dy/dx = ∞(x)∞(y) |
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530 | (4) |
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47 Homogeneous first-order differential equations |
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534 | (4) |
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534 | (1) |
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47.2 Procedure to solve differential equations of the form Pdy/dx=Q |
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534 | (1) |
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47.3 Worked problems on homogeneous first-order differential equations |
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535 | (1) |
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47.4 Further worked problems on homogeneous first-order differential equations |
|
|
536 | (2) |
|
48 Linear first-order differential equations |
|
|
538 | (5) |
|
|
|
538 | (1) |
|
48.2 Procedure to solve differential equations of the form dy/dx + Py = Q |
|
|
539 | (1) |
|
48.3 Worked problems on linear first-order differential equations |
|
|
539 | (1) |
|
48.4 Further worked problems on linear first-order differential equations |
|
|
540 | (3) |
|
49 Numerical methods for first-order differential equations |
|
|
543 | (18) |
|
|
|
543 | (1) |
|
|
|
544 | (1) |
|
49.3 Worked problems on Euler's method |
|
|
545 | (4) |
|
49.4 The Euler-Cauchy method |
|
|
549 | (5) |
|
49.5 The Runge-Kutta method |
|
|
554 | (6) |
|
|
|
560 | (1) |
|
50 Second-order differential equations of the formal ad2y/dx2 + bdy/dy + cy = 0 |
|
|
561 | (7) |
|
|
|
561 | (1) |
|
50.2 Procedure to solve differential equations of the forma ad2y/dx2 + bdy/dx + cy = 0 |
|
|
562 | (1) |
|
50.3 Worked problems on differential equations of the form ad2y/dx2 + bdy/dx + cy = 0 |
|
|
562 | (2) |
|
50.4 Further worked problems on practical differential equations of the form ad2y/dx2 + bdy/dx + cy = 0 |
|
|
564 | (4) |
|
51 Second-order differential equations of the for ad2y/dx2 + bdy/dx + cy = ∞(x) |
|
|
568 | (10) |
|
51.1 Complementary function and particular integral |
|
|
569 | (1) |
|
51.2 Procedure to solve differential equations of the form ad2y/dx2 + bdy/dx + cy =∞(x) |
|
|
570 | (1) |
|
51.3 Differential equations of the form ad2y/dx2 + bdy/dx + cy =∞(x) where ∞(x) is a constant or polynomial |
|
|
570 | (1) |
|
51.4 Differential equations of the form ad2y/dx2 + bdy/dx + cy = ∞(x) where ∞(x) is an exponential function |
|
|
571 | (2) |
|
51.5 Differential equations of the form ad2y/dx2 + bdy/dx + cy = ∞(x) where ∞(x) is a sine or cosine function |
|
|
573 | (2) |
|
51.6 Differential equations of the form ad2y/dx2 + bdy/dx + cy = ∞(x) where ∞(x) is a sum or a product |
|
|
575 | (3) |
|
52 Power series methods of solving ordinary differential equations |
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|
578 | (23) |
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|
578 | (1) |
|
52.2 Higher order differential coefficients as series |
|
|
579 | (1) |
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|
580 | (3) |
|
52.4 Power series solution by the Leibniz-Maclaurin method |
|
|
583 | (2) |
|
52.5 Power series solution by the Frobenius method |
|
|
585 | (7) |
|
52.6 Bessel's equation and Bessel's functions |
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|
592 | (5) |
|
52.7 Legendre's equation and Legendre polynomials |
|
|
597 | (4) |
|
53 An introduction to partial differential equations |
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|
601 | (16) |
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|
602 | (1) |
|
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|
602 | (1) |
|
53.3 Solution of partial differential equations by direct partial integration |
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|
602 | (2) |
|
53.4 Some important engineering partial differential equations |
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|
604 | (1) |
|
53.5 Separating the variables |
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|
605 | (1) |
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|
606 | (4) |
|
53.7 The heat conduction equation |
|
|
610 | (2) |
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|
612 | (3) |
|
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|
615 | (2) |
|
Section J Laplace transforms |
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|
617 | (44) |
|
54 Introduction to Laplace transforms |
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|
619 | (6) |
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|
619 | (1) |
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54.2 Definition of a Laplace transform |
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|
619 | (1) |
|
54.3 Linearity property of the Laplace transform |
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|
620 | (1) |
|
54.4 Laplace transforms of elementary functions |
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|
620 | (1) |
|
54.5 Worked problems on standard Laplace transforms |
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|
621 | (4) |
|
55 Properties of Laplace transforms |
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625 | (7) |
|
55.1 The Laplace transform of eat∞(t) |
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|
625 | (1) |
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55.2 Laplace transforms of the form eat∞(t) |
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|
625 | (2) |
|
55.3 The Laplace transforms of derivatives |
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|
627 | (2) |
|
55.4 The initial and final value theorems |
|
|
629 | (3) |
|
56 Inverse Laplace transforms |
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|
632 | (8) |
|
56.1 Definition of the inverse Laplace transform |
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|
632 | (1) |
|
56.2 Inverse Laplace transforms of simple functions |
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|
632 | (3) |
|
56.3 Inverse Laplace transforms using partial fractions |
|
|
635 | (2) |
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|
637 | (3) |
|
57 The Laplace transform of the Heaviside function |
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|
640 | (8) |
|
57.1 Heaviside unit step function |
|
|
640 | (4) |
|
57.2 Laplace transforms of H(t - c) |
|
|
644 | (1) |
|
57.3 Laplace transforms of H(t - c).∞(t - c) |
|
|
644 | (1) |
|
57.4 Inverse Laplace transforms of Heaviside functions |
|
|
645 | (3) |
|
58 The solution of differential equations using Laplace transforms |
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|
648 | (5) |
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|
648 | (1) |
|
58.2 Procedure to solve differential equations using Laplace transforms |
|
|
648 | (1) |
|
58.3 Worked problems on solving differential equations using Laplace transforms |
|
|
649 | (4) |
|
59 The solution of simultaneous differential equations using Laplace transforms |
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|
653 | (8) |
|
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|
653 | (1) |
|
59.2 Procedure to solve simultaneous differential equations using Laplace transforms |
|
|
653 | (1) |
|
59.3 Worked problems on solving simultaneous differential equations using Laplace transforms |
|
|
654 | (5) |
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|
659 | (2) |
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|
661 | (50) |
|
60 Fourier series for periodic functions of period 2π |
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|
663 | (7) |
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|
|
664 | (1) |
|
|
|
664 | (1) |
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|
664 | (1) |
|
60.4 Worked problems on Fourier series of periodic functions of period 2π |
|
|
665 | (5) |
|
61 Fourier series for a non-periodic function over period 2π |
|
|
670 | (6) |
|
61.1 Expansion of non-periodic functions |
|
|
670 | (1) |
|
61.2 Worked problems on Fourier series of non-periodic functions over a range of 2π |
|
|
671 | (5) |
|
62 Even and odd functions and half-range Fourier series |
|
|
676 | (8) |
|
62.1 Even and odd functions |
|
|
676 | (1) |
|
62.2 Fourier cosine and Fourier sine series |
|
|
676 | (4) |
|
62.3 Half-range Fourier series |
|
|
680 | (4) |
|
63 Fourier series over any range |
|
|
684 | (6) |
|
63.1 Expansion of a periodic function of period L |
|
|
684 | (4) |
|
63.2 Half-range Fourier series for functions defined over range L |
|
|
688 | (2) |
|
64 A numerical method of harmonic analysis |
|
|
690 | (8) |
|
|
|
690 | (1) |
|
64.2 Harmonic analysis on data given in tabular or graphical form |
|
|
690 | (4) |
|
64.3 Complex waveform considerations |
|
|
694 | (4) |
|
65 The complex or exponential form of a Fourier series |
|
|
698 | (13) |
|
|
|
698 | (1) |
|
65.2 Exponential or complex notation |
|
|
698 | (1) |
|
65.3 Complex coefficients |
|
|
699 | (4) |
|
65.4 Symmetry relationships |
|
|
703 | (3) |
|
65.5 The frequency spectrum |
|
|
706 | (1) |
|
|
|
707 | (4) |
|
|
|
711 | (18) |
|
66 An introduction to z-transforms |
|
|
713 | (16) |
|
|
|
714 | (3) |
|
66.2 Some properties of z-transforms |
|
|
717 | (3) |
|
66.3 Inverse z-transforms |
|
|
720 | (2) |
|
66.4 Using z-transforms to solve difference equations |
|
|
722 | (5) |
|
|
|
727 | (2) |
|
Section M Statistics and probability |
|
|
729 | (117) |
|
67 Presentation of statistical data |
|
|
731 | (12) |
|
67.1 Some statistical terminology |
|
|
732 | (1) |
|
67.2 Presentation of ungrouped data |
|
|
733 | (3) |
|
67.3 Presentation of grouped data |
|
|
736 | (7) |
|
68 Mean, median, mode and standard deviation |
|
|
743 | (8) |
|
68.1 Measures of central tendency |
|
|
743 | (1) |
|
68.2 Mean, median and mode for discrete data |
|
|
744 | (1) |
|
68.3 Mean, median and mode for grouped data |
|
|
745 | (1) |
|
|
|
746 | (2) |
|
68.5 Quartiles, deciles and percentiles |
|
|
748 | (3) |
|
|
|
751 | (13) |
|
69.1 Introduction to probability |
|
|
752 | (1) |
|
|
|
752 | (1) |
|
69.3 Worked problems on probability |
|
|
753 | (2) |
|
69.4 Further worked problems on probability |
|
|
755 | (3) |
|
69.5 Permutations and combinations |
|
|
758 | (1) |
|
|
|
759 | (3) |
|
|
|
762 | (2) |
|
70 The binomial and Poisson distributions |
|
|
764 | (7) |
|
70.1 The binomial distribution |
|
|
764 | (3) |
|
70.2 The Poisson distribution |
|
|
767 | (4) |
|
71 The normal distribution |
|
|
771 | (9) |
|
71.1 Introduction to the normal distribution |
|
|
771 | (5) |
|
71.2 Testing for a normal distribution |
|
|
776 | (4) |
|
|
|
780 | (5) |
|
72.1 Introduction to linear correlation |
|
|
780 | (1) |
|
72.2 The Pearson product-moment formula for determining the linear correlation coefficient |
|
|
780 | (1) |
|
72.3 The significance of a coefficient of correlation |
|
|
781 | (1) |
|
72.4 Worked problems on linear correlation |
|
|
781 | (4) |
|
|
|
785 | (7) |
|
73.1 Introduction to linear regression |
|
|
785 | (1) |
|
73.2 The least-squares regression lines |
|
|
785 | (1) |
|
73.3 Worked problems on linear regression |
|
|
786 | (5) |
|
|
|
791 | (1) |
|
74 Sampling and estimation theories |
|
|
792 | (13) |
|
|
|
792 | (1) |
|
74.2 Sampling distributions |
|
|
792 | (1) |
|
74.3 The sampling distribution of the means |
|
|
793 | (3) |
|
74.4 The estimation of population parameters based on a large sample size |
|
|
796 | (5) |
|
74.5 Estimating the mean of a population based on a small sample size |
|
|
801 | (4) |
|
|
|
805 | (1) |
|
|
|
805 | (1) |
|
75.2 Type I and type II errors |
|
|
806 | (6) |
|
75.3 Significance tests for population means |
|
|
812 | (5) |
|
75.4 Comparing two sample means |
|
|
817 | (5) |
|
76 Chi-square and distribution-free tests |
|
|
822 | (1) |
|
|
|
822 | (2) |
|
76.2 Fitting data to theoretical distributions |
|
|
824 | (6) |
|
76.3 Introduction to distribution-free tests |
|
|
830 | (1) |
|
|
|
830 | (3) |
|
76.5 Wilcoxon signed-rank test |
|
|
833 | (4) |
|
76.6 The Mann-Whitney test |
|
|
837 | (7) |
|
|
|
844 | (2) |
| Essential formulae |
|
846 | (17) |
| Answers to Practice Exercises |
|
863 | (47) |
| Index |
|
910 | |
