Suppose that f is an integrable function on R (real numbers). How do you show that the integral of f(x) exp(x2/k) converges to the integral of f(x) as k goes to infinity? Here exp() denotes the exponential function with base e.

Suppose that f is an integrable function on R (real numbers). How do you show that the integral of f(x) exp(x2/k) converges to the integral of f(x) as k goes to infinity? Here exp() denotes the exponential function with base e.

College Algebra

1st Edition

ISBN:9781938168383

Author:Jay Abramson

Publisher:Jay Abramson

Chapter3: Functions

Section3.3: Rates Of Change And Behavior Of Graphs

Problem 2SE: If a functionfis increasing on (a,b) and decreasing on (b,c) , then what can be said about the local...

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Concept explainers

Riemann Sum

Riemann Sums is a special type of approximation of the area under a curve by dividing it into multiple simple shapes like rectangles or trapezoids and is used in integrals when finite sums are involved. Figuring out the area of a curve is complex hence this method makes it simple. Usually, we take the help of different integration methods for this purpose. This is one of the major parts of integral calculus.

Riemann Integral

Bernhard Riemann's integral was the first systematic description of the integral of a function on an interval in the branch of mathematics known as real analysis.

Question

Suppose that f is an integrable function on R (real numbers). How do you show that the integral

of f(x) exp(x²/k) converges to the integral of f(x) as k goes to infinity?

Here exp() denotes the exponential function with base e.

With differentiation, one of the major concepts of calculus. Integration involves the calculation of an integral, which is useful to find many quantities such as areas, volumes, and displacement.

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