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.

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

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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.