1) It shows that the function f(x) = 1/x is integrable in the closed interval [1, 2]. This must be done estimating the Riemann sums of the function f(x).2)Propose a limited function f : [a, b] → R and two P and Q partitions of the closed interval [a, b] suchthat λ(P) < λ(Q) but that lower sum (f; P) = lower sum(f; Q) and superior sum (f; P) = superior sum(f; Q).3)Let f : [a, b] → R a continuous function such that f(x) ≥ 0 for all x ∈ [a, b]. It proves that if there isx0 ∈ (a, b) such that f(x0)>0, then: The integral of a to b of f(x) is greater than zero.Note: do not demonstrate 3) with a numerical example4)Give an example of a dimensioned function f : [a, b] → R such that |f| is Riemann-integratable, but f notis Riemann-integrable.5)Build two examples of functions f1,2 : [a, b] → R that are Riemann-integratable where1/f1(X)is not Riemann-integrable and 1/f2(X)if Riemann-integrable

As you asked more than one questions I only solve the first one.

Answered: 1) It shows that the function f(x) =…

1) It shows that the function f(x) = 1/x is integrable in the closed interval [1, 2]. This must be done estimating the Riemann sums of the function f(x).

Algebra & Trigonometry with Analytic Geometry

13th Edition

ISBN:9781133382119

Author:Swokowski

Publisher:Swokowski

Chapter9: Systems Of Equations And Inequalities

Section: Chapter Questions

Problem 12T

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Question

100%

1) It shows that the function f(x) = 1/x is integrable in the closed interval [1, 2]. This must be done estimating the Riemann sums of the function f(x).

2)Propose a limited function f : [a, b] → R and two P and Q partitions of the closed interval [a, b] such
that λ(P) < λ(Q) but that lower sum (f; P) = lower sum(f; Q) and superior sum (f; P) = superior sum(f; Q).

3)Let f : [a, b] → R a continuous function such that f(x) ≥ 0 for all x ∈ [a, b]. It proves that if there is
x₀ ∈ (a, b) such that f(x₀)>0, then:

The integral of a to b of f(x) is greater than zero.

Note: do not demonstrate 3) with a numerical example

4)Give an example of a dimensioned function f : [a, b] → R such that |f| is Riemann-integratable, but f not
is Riemann-integrable.

5)Build two examples of functions f_1,2 : [a, b] → R that are Riemann-integratable where
1/f₁(X)
is not Riemann-integrable and 1/f₂(X)
if Riemann-integrable

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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