Higher Engineering Mathematics

Higher Engineering Mathematics

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Now in its eighth edition, Higher Engineering Mathematics has helped thousands of students succeed in their exams. Theory is kept to a minimum, with the emphasis firmly placed on problem-solving skills, making this a thoroughly practical introduction to the advanced engineering mathematics that students need to master. The extensive and thorough topic coverage makes this an ideal text for upper-level vocational courses and for undergraduate degree courses. It is also supported by a fully updated companion website with resources for both students and lecturers. It has full solutions to all 2,000 further questions contained in the 277 practice exercises.show more

Product details

  • Paperback | 924 pages
  • 219 x 276 x 44.45mm | 2,426.72g
  • Taylor & Francis Ltd
  • London, United Kingdom
  • English
  • New edition
  • New edition
  • 559 black & white illustrations, 251 black & white tables
  • 1138673579
  • 9781138673571
  • 268,343

About John Bird

John Bird (BSc(Hons), CMath, CEng, CSci, FITE, FIMA, FCollT) is the former Head of Applied Electronics in the Faculty of Technology at Highbury College, Portsmouth, UK. More recently he has combined freelance lecturing and examining, and is the author of over 130 textbooks on engineering and mathematical subjects with worldwide sales of one million copies. He is currently lecturing at the Defence School of Marine Engineering in the Defence College of Technical Training at HMS Sultan, Gosport, Hampshire, UK.show more

Table of contents

Preface Syllabus guidance Section A Number and algebra 1 Algebra 2 Partial fractions 3 Logarithms 4 Exponential functions 5 Inequalities 6 Arithmetic and geometric progressions 7 The binomial series 8 Maclaurin's series 9 Solving equations by iterative methods 10 Binary, octal and hexadecimal numbers 11 Boolean algebra and logic circuits Section B Geometry and trigonometry 12 Introduction to trigonometry 13 Cartesian and polar co-ordinates 14 The circle and its properties 15 Trigonometric waveforms 16 Hyperbolic functions 17 Trigonometric identities and equations 18 The relationship between trigonometric and hyperbolic functions 19 Compound angles Section C Graphs 20 Functions and their curves 21 Irregular areas, volumes and mean values of waveforms Section D Complex numbers 22 Complex numbers 23 De Moivre's theorem Section E Matrices and determinants 24 The theory of matrices and determinants 25 Applications of matrices and determinants Section F Vector geometry 303 26 Vectors 27 Methods of adding alternating waveforms 28 Scalar and vector products Section G Introduction to calculus 29 Methods of differentiation 30 Some applications of differentiation 31 Standard integration 32 Some applications of integration 33 Introduction to differential equations Section H Further differential calculus 34 Differentiation of parametric equations 35 Differentiation of implicit functions 36 Logarithmic differentiation 37 Differentiation of hyperbolic functions 38 Differentiation of inverse trigonometric and hyperbolic functions 39 Partial differentiation 40 Total differential, rates of change and small changes 41 Maxima, minima and saddle points for functions of two variables Section I Further integral calculus 42 Integration using algebraic substitutions 43 Integration using trigonometric and hyperbolic substitutions 44 Integration using partial fractions 45 The t = tan theta/2 46 Integration by parts 47 Reduction formulae 48 Double and triple integrals 49 Numerical integration Section J Further differential equations 50 Homogeneous first order differential equations 51 Linear first order differential equations 52 Numerical methods for first order differential equations 53 First order differential equations of the form 54 First order differential equations of the form 55 Power series methods of solving ordinary differential equations 56 An introduction to partial differential equations Section K Statistics and probability 57 Presentation of statistical data 58 Mean, median, mode and standard deviation 59 Probability 60 The binomial and Poisson distributions 61 The normal distribution 62 Linear correlation 63 Linear regression 64 Sampling and estimation theories 65 Significance testing 66 Chi-square and distribution-free tests Section L Laplace transforms 67 Introduction to Laplace transforms 68 Properties of Laplace transforms 69 Inverse Laplace transforms 70 The Laplace transform of the Heaviside function 71 The solution of differential equations using Laplace transforms 72 The solution of simultaneous differential equations using Laplace transforms Section M Fourier series 73 Fourier series for periodic functions of period 2pi 74 Fourier series for a non-periodic function over period 2pi 75 Even and odd functions and half-range Fourier series 76 Fourier series over any range 77 A numerical method of harmonic analysis 78 The complex or exponential form of a Fourier series Section N Z-transforms 79 An introduction to z-transforms Essential formulae Answers to Practice Exercises Indexshow more

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