Calculus: Difference between revisions

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'''Calculus''' usually refers to the elementary study of real-valued functions and their applications to the study of quantities. The central tools of calculus are the '''[[limit]]''', the '''[[derivative]]''', and the '''[[integral]]'''. The subject can be divided into two major branches: '''[[differential calculus]]''' and '''[[integral calculus]]''', concerned with the study of the derivatives and integrals of functions respectively. The relationship between these two branches of calculus is encapsulated in the [[Fundamental theorem of calculus]]. Calculus can be extended to '''[[multivariable calculus]]''', which studies the properties and applications of functions in multiple variables. Calculus belongs to the more general field of '''[[analysis]]''', which is concerned with the study of functions in a more general setting. The study of real-valued functions is called [[real analysis]] and the study of complex-valued functions is called [[complex analysis]].
'''Calculus''' usually refers to the elementary study of real-valued functions and their applications to the study of quantities. The central tools of calculus are the '''[[limit]]''', the '''[[derivative]]''', and the '''[[integral]]'''. The subject can be divided into two major branches: '''[[differential calculus]]''' and '''[[integral calculus]]''', concerned with the study of the derivatives and integrals of functions respectively. The relationship between these two branches of calculus is encapsulated in the [[Fundamental theorem of calculus]]. Calculus can be extended to '''[[multivariable calculus]]''', which studies the properties and applications of functions in multiple variables. Calculus belongs to the more general field of '''[[analysis]]''', which is concerned with the study of functions in a more general setting. The study of real-valued functions is called [[real analysis]] and the study of complex-valued functions is called [[complex analysis]].
==Calculus vs. analysis==
Strictly speaking, there is virtually no distinction between the topic called calculus and the topic called analysis. The distinction is made on historical and pedagogical grounds. Calculus usually refers to the material taught to first and second year university students. It is usually non-rigorous and more concerned with applications and problem solving than theoretical development. Analysis usually refers to the study of functions in a more technical and rigorous setting, usually starting with a first course in the theoretical foundations of elementary calculus. The elementary treatment of calculus generally follows the historical development pioneered by [[Isaac Newton]] and [[Gottfried Leibniz]]. The development of introductory Analysis follows the rigorous treatment of the subject that was formulated by mathematicians such as [[Karl Weierstrass]] and [[Augustin Cauchy]].
==History==


==Motivation==
==Motivation==
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==Main ideas==
==Main ideas==


===Limit===
===Limits and continuity===


===Derivative===
===Derivative of a function===


===Integral===
===Definite and indefinite integral of a function===


===Fundamental theorem of calculus===
===Fundamental theorem of calculus===


===Power series===
===Power series of a function===


==Examples==
==Examples==


==Application==
==Application==
==History==
==Calculus vs. analysis==
Strictly speaking, there is virtually no distinction between the topic called calculus and the topic called analysis. The distinction is made on historical and pedagogical grounds. Calculus usually refers to the material taught to first and second year university students. It is usually non-rigorous and more concerned with applications and problem solving than theoretical development. Analysis usually refers to the study of functions in a more technical and rigorous setting, usually starting with a first course in the theoretical foundations of elementary calculus. The elementary treatment of calculus generally follows the historical development pioneered by [[Isaac Newton]] and [[Gottfried Leibniz]]. The development of introductory Analysis follows the rigorous treatment of the subject that was formulated by mathematicians such as [[Karl Weierstrass]] and [[Augustin Cauchy]].


==References==
==References==

Revision as of 12:55, 26 May 2009

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This page is about infinitesmal calculus. For other uses of the word in mathematics and other fields, click here

Calculus usually refers to the elementary study of real-valued functions and their applications to the study of quantities. The central tools of calculus are the limit, the derivative, and the integral. The subject can be divided into two major branches: differential calculus and integral calculus, concerned with the study of the derivatives and integrals of functions respectively. The relationship between these two branches of calculus is encapsulated in the Fundamental theorem of calculus. Calculus can be extended to multivariable calculus, which studies the properties and applications of functions in multiple variables. Calculus belongs to the more general field of analysis, which is concerned with the study of functions in a more general setting. The study of real-valued functions is called real analysis and the study of complex-valued functions is called complex analysis.

Motivation

Main ideas

Limits and continuity

Derivative of a function

Definite and indefinite integral of a function

Fundamental theorem of calculus

Power series of a function

Examples

Application

History

Calculus vs. analysis

Strictly speaking, there is virtually no distinction between the topic called calculus and the topic called analysis. The distinction is made on historical and pedagogical grounds. Calculus usually refers to the material taught to first and second year university students. It is usually non-rigorous and more concerned with applications and problem solving than theoretical development. Analysis usually refers to the study of functions in a more technical and rigorous setting, usually starting with a first course in the theoretical foundations of elementary calculus. The elementary treatment of calculus generally follows the historical development pioneered by Isaac Newton and Gottfried Leibniz. The development of introductory Analysis follows the rigorous treatment of the subject that was formulated by mathematicians such as Karl Weierstrass and Augustin Cauchy.

References