APPLICATION OF DEFINITE INTEGRALS OF OUR LIFE

APPLICATION OF DEFINITE INTEGRALS OF OUR LIFE
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DEFINATION
The definite integral is defined to be exactly the limit and summation that we looked at in the last section to find the net area between a function and the xaxis. Also note that the notation for the definite integral is very similar to the notation for an indefinite integral.There is also a little bit of terminology that we should get out of the way here.
The number “a” that is at the bottom of the integral sign is called the lower limit of the integral and the number “b” at the top of the integral sign is called the upper limit of the integral
Also, despite the fact that a and b were given as an interval the lower limit does not necessarily need to be number smaller then the upper limit. Collectively we’ll often call a and b the interval of integration
Definite integral is defined informally to be the net signed area of the region in the xyplane bounded by the graph of ƒ, the xaxis, and the vertical lines x = a and x = b.
• Integrals and derivatives became the basic tools of calculus, with numerous applications in science and engineering. A rigorous mathematical definition of the integral was given by reimamm. It is based on a limiting procedure which approximates the area of a curvilinear region by breaking the region into thin vertical slabs. Beginning in the nineteenth century, more sophisticated notions of integrals began to appear, where the type of the function as well as the domain over which the integration is performed has been generalized. A line integral is defined for functions of two or three variables, and the interval of integration [a, b] is replaced by a certain curve connecting two points on the plane or in the space. In a surface integral, the curve is replaced by a piece of a surface in the threedimensional space. Integrals of differential forms play a fundamental role in modern differential geometry. These generalizations of integral first arose from the needs of physics, and they play an important role in the formulation of many physical laws, notably those of electrodynamics. There are many modern concepts of integration, among these; the most common is based on the abstract mathematical theory known as Lebesgue integration, developed by Henri Lebesgue. 

