# Best Books on Tensor analysis to Enrich Your Mathematics Knowledge

A complete textbook designed for advanced undergraduate and graduate students. The discussion of calculus of moving surfaces is extended in this book. It provides you an introduction to tensor analysis. It's very easy to read all about tensor analysis. Not much theory but enough discussion to get you to the point of doing some practical calculations.

**What you'll learn-**

- Differential geometry on manifolds
- Shape optimization
- Dynamic fluid film equations.
- Discussion of the interplay between algebra and geometry
- Fundamental geometry
- Various exciting applications
- Boundary perturbation of boundary value problems
- Geodesic equations
- Gauss-Bonnet theorem.

The book was published by famous schaum's outliine series. Written by the renowned expert and teachers. The main features of this book is helpful solved problems and step by step details on all solved problem.

**What you'll learn-**

- Around 300 solved problem
- Discussion about all course fundamentals
- Effective problem solving techniques
- Details on all major problems of tensor calculus

This book introduces you to the essentials of modern vector, tensor analysis. No previous knowledge is needed. The topics are clearly arranged that you can easily find all the topics at a glance. Its essentials for the students of engineering and physics to learn about nature and applications of vectors and tensor analysis on manifolds

** What you'll learn-**

- Tensor analysis function-theoretical and algebraic aspects
- Vector analysis
- integration theory
- Special structure of tensor analysis
- Clarify the ideas of classical mechanics
- Numerous example and problems

A complete guide for tensor analysis. The method of presentation of ideas and techniques on tensor analysis makes it more preferable for students and researcher. You can use it as your reference book for an introductory course on tensor algebra.

**What you'll learn-**

- Fundamental equations of a surface
- General coordinate system
- Graphical illustrations of every problem
- Applications of tensor calculus
- Numerous problem and step by step solutions.

This book introduces you to the essentials of modern vector, tensor, and fluid mechanics. No previous knowledge is needed. The topics are clearly arranged that you can easily find all the topics at a glance. Its essentials for the students of engineering and physics to learn about nature and applications of vectors and tensor.

**What you'll learn-**

- Calculus of partial differentiation and multiple integrations
- Calculus of Cartesian vectors and tensors
- Equations of motion and energy in cartesian coordinates
- Equations of fluid flow in Euclidean space.
- Equations of surface flow
- Equations for reacting fluids
- 3-dimensional coordinate geometry
- Details on fluid motion and stress in fluids

**What you'll learn-**

- Algebraic preliminaries
- Algebraic geometry
- Differential geometry
- Fundamental equations of a surface
- Dynamics of rigid bodies, electricity, and magnetism
- Mechanics of continuous media
- Special theory of relativity

**What you'll learn-**

- Functional determinants and matrics
- Linear partial determinants
- Algebraic functions
- Curvature-related Riemann's symbols and properties
- Intrinsic geometry
- Gravitational equations and general relativity

This well decorated book helps you to clarify you basics of tensor calculus. No previous knowledge is needed. The topics are clearly arranged that you can easily find all the topics at a glance. It provides various techniques of tensor equation and solved any kind of calculation problems easily

**What you'll learn-**

- Cartesian approaches
- General co-ordinate system
- Graphical illustrations of every problem
- Basics of tensor calculus

This book introduces you to the essentials of modern differential geometry and topology. Clear definitions and step by step details make it perfect for undergraduate and graduate students. It discusses the very basics of manifolds and tensor.

**What you'll learn-**

- Multi-linear algebra
- Homology
- Differentiation and integration on manifolds
- Cohomology
- Pseudo-Riemannian geometry
- 250 details exercise
- Classical mechanics
- General relativity and gauge theory
- Electromagnetism

A most powerful problem-solving tools on vector and tensor with applications of mechanics and electromagnetism. Its essentials for the students of engineering and physics to learn about nature and applications of vectors and tensor. This book provides all basic and practical application of tensor for engineering students.

**What you'll learn-**

- Maxwell's equations
- Vector and vector calculus
- Matrices and their algebra
- Interactive solutions to all problems
- Graphical explanations of tensor
- Co-ordinate geometry.