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  • Partial Differential Equations III : Nonlinear Equations
    Partial Differential Equations III : Nonlinear Equations

    The third of three volumes on partial differential equations, this is devoted to nonlinear PDE.It treats a number of equations of classical continuum mechanics, including relativistic versions, as well as various equations arising in differential geometry, such as in the study of minimal surfaces, isometric imbedding, conformal deformation, harmonic maps, and prescribed Gauss curvature.In addition, some nonlinear diffusion problems are studied.It also introduces such analytical tools as the theory of L^p Sobolev spaces, Holder spaces, Hardy spaces, and Morrey spaces, and also a development of Calderon-Zygmund theory and paradifferential operator calculus.The book is targeted at graduate students in mathematics and at professional mathematicians with an interest in partial differential equations, mathematical physics, differential geometry, harmonic analysis, and complex analysis.The third edition further expands the material by incorporating new theorems and applications throughout the book, and by deepening connections and relating concepts across chapters. It includes new sections on rigid body motion, on probabilistic results related to random walks, on aspects of operator theory related to quantum mechanics, on overdetermined systems, and on the Euler equation for incompressible fluids. The appendices have also been updated with additional results, ranging from weak convergence of measures to the curvature of Kahler manifolds. Michael E. Taylor is a Professor of Mathematics at the University of North Carolina, Chapel Hill, NC. Review of first edition: “These volumes will be read by several generations of readers eager to learn the modern theory of partial differential equations of mathematical physics and the analysis in which this theory is rooted.”(Peter Lax, SIAM review, June 1998)

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  • Innovation in Information Technology
    Innovation in Information Technology


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  • Equations Dominoes
    Equations Dominoes

    This 24 piece domino set promotes a deeper understanding of algebra through game play, solving simple equations using a letter to indicate an unknown value. Solve equations by matching each domino to one showing the correct value of x.

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  • Integral Equations
    Integral Equations

    Designed for the postgraduate students of mathematics, the book on Integral Equations equips the students with an in-depth and single-source coverage of the complete spectrum of Integral Equations, including the basic concepts, Fredholm integral equations, separable and symmetric kernels, solutions of integral equations, classical Fredholm theory, integral transform method, and so on.Divided into eight chapters, the text addresses the doubts and concerns of the students.Examples given in the chapters inculcate the habit to try to solve more and more problems based on integral equations and create confidence in students. Bridging the gap between theory and practice, the book offers: Clear and concise presentation Systematic discussion of the conceptsNumerous worked-out examples to make the students aware of problem-solving methodologySufficient exercises containing ample unsolved questions along with their answersPractice questions with intermediate results to help students from practice point-of-view

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  • What are fractional equations and quadratic equations?

    Fractional equations are equations that contain fractions with variables in the numerator or denominator. These equations involve solving for the variable in order to find the value that satisfies the equation. On the other hand, quadratic equations are equations that involve a variable raised to the second power, resulting in a parabolic curve when graphed. Quadratic equations can be solved using methods such as factoring, completing the square, or using the quadratic formula.

  • What is the connection between geometry and equations?

    Geometry and equations are connected through the use of coordinates. In geometry, coordinates are used to represent points in space, and equations are used to describe the relationships between these points. For example, the equation of a line in geometry can be represented as y = mx + b, where m is the slope and b is the y-intercept. This equation allows us to understand the relationship between the x and y coordinates of points on the line. In this way, equations provide a mathematical framework for understanding and describing the geometric relationships between points, lines, and shapes.

  • Are the chemical equations and ionic equations correct?

    Without specific examples of the chemical equations and ionic equations in question, it is difficult to determine their correctness. However, chemical equations should accurately represent the reactants and products involved in a chemical reaction, while ionic equations should accurately represent the dissociation of ionic compounds into their constituent ions. It is important to ensure that charges are balanced and that the equations follow the rules of chemical reactions and ionic dissociation. If you provide specific examples, I would be happy to help you determine their correctness.

  • Are equations the same as systems of equations?

    No, equations and systems of equations are not the same. An equation is a mathematical statement that shows the equality of two expressions, while a system of equations is a set of multiple equations that are to be solved simultaneously. In a system of equations, there are multiple unknown variables and the goal is to find the values of these variables that satisfy all the equations in the system. Therefore, while an equation represents a single relationship, a system of equations represents multiple relationships that need to be solved together.

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  • Partial Differential Equations II : Qualitative Studies of Linear Equations
    Partial Differential Equations II : Qualitative Studies of Linear Equations

    This second in the series of three volumes builds upon the basic theory of linear PDE given in volume 1, and pursues more advanced topics.Analytical tools introduced here include pseudodifferential operators, the functional analysis of self-adjoint operators, and Wiener measure.The book also develops basic differential geometrical concepts, centered about curvature.Topics covered include spectral theory of elliptic differential operators, the theory of scattering of waves by obstacles, index theory for Dirac operators, and Brownian motion and diffusion.The book is targeted at graduate students in mathematics and at professional mathematicians with an interest in partial differential equations, mathematical physics, differential geometry, harmonic analysis, and complex analysis. The third edition further expands the material by incorporating new theorems and applications throughout the book, and by deepening connections and relating concepts across chapters.It includes new sections on rigid body motion, on probabilistic results related to random walks, on aspects of operator theory related to quantum mechanics, on overdetermined systems, and on the Euler equation for incompressible fluids. The appendices have also been updated with additional results, ranging from weak convergence of measures to the curvature of Kahler manifolds. Michael E. Taylor is a Professor of Mathematics at the University of North Carolina, Chapel Hill, NC. Review of first edition: “These volumes will be read by several generations of readers eager to learn the modern theory of partial differential equations of mathematical physics and the analysis in which this theory is rooted.”(Peter Lax, SIAM review, June 1998)

    Price: 64.99 £ | Shipping*: 0.00 £
  • The Equations World
    The Equations World


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  • Physics Equations & Answers
    Physics Equations & Answers

    Essential tool for physics laws, concepts, variables and equations, including sample problems, common pitfalls and helpful hints.

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  • Calculus Equations & Answers
    Calculus Equations & Answers

    For every student who has ever found the answer to a particular calculus equation elusive or a certain theorem impossible to remember, QuickStudy comes to the rescue!This 3-panel (6-page) comprehensive guide offers clear and concise examples, detailed explanations and colorful graphsaall guaranteed to make calculus a breeze!Easy-to-use icons help students go right to the equations and problems they need to learn, and call out helpful tips to use and common pitfalls to avoid.

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  • Why is information and communication technology referred to as useful energy?

    Information and communication technology is referred to as useful energy because it enables the efficient transmission and processing of information, leading to increased productivity and effectiveness in various tasks. Just like energy is essential for powering machines and devices, ICT provides the necessary tools and resources for communication, data storage, and problem-solving. It plays a crucial role in powering modern economies and societies by facilitating connectivity, innovation, and collaboration.

  • What is the system of equations with three equations?

    A system of equations with three equations is a set of three equations that are to be solved simultaneously. Each equation represents a relationship between variables, and the goal is to find the values of the variables that satisfy all three equations at the same time. The general form of a system of three equations is: a1x + b1y + c1z = d1 a2x + b2y + c2z = d2 a3x + b3y + c3z = d3 Where x, y, and z are the variables, and a1, b1, c1, d1, etc. are the coefficients and constants of the equations.

  • Which of the following equations are not linear equations?

    The following equations are not linear equations: 1. y = x^2 - 3x + 2 - This is a quadratic equation because it contains a squared term. 2. 3xy + 2 = 8 - This is not a linear equation because it contains a product of x and y. 3. 2x^3 + 5x - 1 = 0 - This is a cubic equation because it contains a cubed term. 4. y = 2^x - This is an exponential equation because it contains a variable in the exponent.

  • How do I convert ratio equations into product equations?

    To convert ratio equations into product equations, you can simply multiply both sides of the ratio equation by the same number. For example, if you have the ratio equation 2:3 = 4:6, you can convert it into a product equation by multiplying both sides by 3, resulting in 2*3 = 4*3, which simplifies to 6 = 12. This allows you to express the relationship between the two quantities in terms of their product rather than their ratio.

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