Engineering Mathematics I

For University of Mumbai

Price: 450.00 INR

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ISBN:

9780190124144

Publication date:

30/08/2019

Paperback

392 pages

Engineering Mathematics I View larger

Price: 450.00 INR

We sell our titles through other companies
Amazon
Go to Amazon website arrow-frwd
Flipkart
Go to Flipkart website arrow-frwd
Disclaimer :You will be redirected to a third party website.The sole responsibility of supplies, condition of the product, availability of stock, date of delivery, mode of payment will be as promised by the said third party only. Prices and specifications may vary from the OUP India site.

ISBN:

9780190124144

Publication date:

30/08/2019

Paperback

392 pages

Second Edition

A.V. Dubewar, B.B. Mulla & W.D. Patil

Engineering Mathematics I is specially designed for the first year engineering students of the University of Mumbai. The book provides a detailed coverage of all the topics taught in Engineering Mathematics I offered in the first semester.

Rights:  World Rights

Engineering Mathematics I View larger

Second Edition

A.V. Dubewar, B.B. Mulla & W.D. Patil

Description

It starts with a review of complex numbers, and then focuses on applications of De Moivre’s theorem, special class of exponential functions called hyperbolic functions, inverse hyperbolic functions, and logarithm of complex numbers. Subsequent chapters are devoted to successive differentiation, matrices, general properties of partial differentiation, composite functions, implicit functions, and homogeneous functions, formation of Taylor’s and Maclaurin’s expansions of certain classes of functions, and indeterminate forms. It further discusses numerical methods for the solution of transcendental and linear algebraic equations and comes with appendices on Lagrange's method of undetermined multipliers and Gauss-Jordan Method. In addition, the book also introduces Scilab programming techniques for solving numerical problems. The book aims at providing application-based learning with ample number of solved problems, exercises, and exam questions which also help students to familiarize themselves with the pattern of the semester-end university examination.

Engineering Mathematics I View larger

Second Edition

A.V. Dubewar, B.B. Mulla & W.D. Patil

Table of contents

  1. Complex Numbers
  2. Hyperbolic Functions
  3. Logarithm of Complex Numbers
  4. Successive Differentiation
  5. Matrices
  6. Partial Differentiation
  7. Applications of Partial Differentiation
  8. Expansion of Functions
  9. Indeterminate Forms
  10. Numerical Solutions of Transcendental Equations and System of Linear Equations
  11. Scilab

Engineering Mathematics I View larger

Second Edition

A.V. Dubewar, B.B. Mulla & W.D. Patil

Features

  • Follows the latest 2019-20 syllabus of the University of Mumbai completely
  • Provides numerous solved university questions after each section
  • Includes a list of important formulae at the end of the book for quick reference
  • Provides summary at the end of each chapter for quick recapitulation of the concepts learned
  • Includes two model question papers for practice
  • Comes with solved university question paper-Nov. 2018


ONLINE RESOURCES

The following resources are available to support the faculty and students using this text:


For Faculty:
  • Solutions Manual

For Students
  • Solutions to Model Question Papers
  • Solutions to Additional Problems

Engineering Mathematics I View larger

Second Edition

A.V. Dubewar, B.B. Mulla & W.D. Patil

Engineering Mathematics I View larger

Second Edition

A.V. Dubewar, B.B. Mulla & W.D. Patil

Description

It starts with a review of complex numbers, and then focuses on applications of De Moivre’s theorem, special class of exponential functions called hyperbolic functions, inverse hyperbolic functions, and logarithm of complex numbers. Subsequent chapters are devoted to successive differentiation, matrices, general properties of partial differentiation, composite functions, implicit functions, and homogeneous functions, formation of Taylor’s and Maclaurin’s expansions of certain classes of functions, and indeterminate forms. It further discusses numerical methods for the solution of transcendental and linear algebraic equations and comes with appendices on Lagrange's method of undetermined multipliers and Gauss-Jordan Method. In addition, the book also introduces Scilab programming techniques for solving numerical problems. The book aims at providing application-based learning with ample number of solved problems, exercises, and exam questions which also help students to familiarize themselves with the pattern of the semester-end university examination.

Read More

Table of contents

  1. Complex Numbers
  2. Hyperbolic Functions
  3. Logarithm of Complex Numbers
  4. Successive Differentiation
  5. Matrices
  6. Partial Differentiation
  7. Applications of Partial Differentiation
  8. Expansion of Functions
  9. Indeterminate Forms
  10. Numerical Solutions of Transcendental Equations and System of Linear Equations
  11. Scilab

Read More

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