4. This question asks you to find an integral using Riemann sums. Recall from lectures, that a definite integral | f(=) dx can be defined as lim Ln = f(x) dx = lim Un n-00 n-00 where Un and Ln are upper and lower Riemann sums respectively. (a) Sketch a diagram showing the rectangles corresponding to upper and lower Rie- mann sums, Un and Ln on n equal subintervals for the integral x² dx. Include the ith subinterval in your diagram. (b) Write down expressions for Un and Ln using sigma notation. (c) The sum of the squares of the first n positive integers is given by the following formula: n 12 + 22 + 32 + 4² + 5² + + (n – 1)? + n² = Ek² п(n + 1)(2n + 1) ... 6 k=1 (n + 1)(2n + 1) (n – 1)(2n – 1) Use this fact to show that Un and (harder) that Ln 6n2 6n2 (d) Find lim Un and lim Ln. Verify, using the Fundamental Theorem of Calcu- n-00 lus (that is, conventional methods of integration), that these limits are equal to x² dx.

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Hello! Can you please help me to solve this question for the exercises for the Riemann Sums and the definite integral topic, please?

4. This question asks you to find an integral using Riemann sums. Recall from lectures,
that a definite integral
| f(x) dx can
be
defined as
lim Ln
= | S(x) dæ = lim U,
where Un and Ln are upper and lower Riemann sums respectively.
(a) Sketch a diagram showing the rectangles corresponding to upper and lower Rie-
mann sums, U,n and Ln on n equal subintervals for the integral
x² dx.
Include the ith subinterval in your diagram.
(b) Write down expressions for Un and Ln using sigma notation.
(c) The sum of the squares of the first n positive integers is given by the following
formula:
n(n + 1)(2n + 1)
12 + 22 + 32 + 4² + 52 + ...+ (n – 1)² + n² = >
k=1
(n + 1)(2n + 1)
(п — 1)(2n — 1)
-
Use this fact to show that Un
and (harder) that Ln
6n2
6n2
(d) Find lim Un and lim Ln.
Verify, using the Fundamental Theorem of Calcu-
lus (that is, conventional methods of integration), that these limits are equal to
x2 dx.
Transcribed Image Text:4. This question asks you to find an integral using Riemann sums. Recall from lectures, that a definite integral | f(x) dx can be defined as lim Ln = | S(x) dæ = lim U, where Un and Ln are upper and lower Riemann sums respectively. (a) Sketch a diagram showing the rectangles corresponding to upper and lower Rie- mann sums, U,n and Ln on n equal subintervals for the integral x² dx. Include the ith subinterval in your diagram. (b) Write down expressions for Un and Ln using sigma notation. (c) The sum of the squares of the first n positive integers is given by the following formula: n(n + 1)(2n + 1) 12 + 22 + 32 + 4² + 52 + ...+ (n – 1)² + n² = > k=1 (n + 1)(2n + 1) (п — 1)(2n — 1) - Use this fact to show that Un and (harder) that Ln 6n2 6n2 (d) Find lim Un and lim Ln. Verify, using the Fundamental Theorem of Calcu- lus (that is, conventional methods of integration), that these limits are equal to x2 dx.
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