Use the midpoint rule with 4 rectangles to approximate the area under f(x)=x2 over [2,4]. Give...

Use the midpoint rule with 4 rectangles to approximate the area of the region bounded above...

Use the midpoint rule with 4 rectangles to approximate the area of the region bounded above by y=sin⁡x, below by the ?x-axis, on the left by x=0, and on the right by ?=?

Approximate the area under f(x) = (x – 2, above the x-axis, on [2,4] with n...

Approximate the area under f(x) = (x – 2, above the x-axis, on [2,4] with n = 4 rectangles using the (a) left endpoint, (b) right endpoint and (c) trapezoidal rule (i.e. the “average” shortcut). Be sure to include endpoint values and write summation notation for (a) and (b). Also, on (c), state whether the answer over- or underestimates the exact area and why.

Approximate the area under f(x) = sqrt(16-x2) from 0 to 4 using four rectangles with left...

Approximate the area under f(x) = sqrt(16-x2) from 0 to 4 using four rectangles with left endpoints. Is your approximation an overestimate or an underestimate?

(1 bookmark) Use the midpoint rule to estimate the area under graph of f(x) =5/x and...

(1 bookmark) Use the midpoint rule to estimate the area under graph of f(x) =5/x and above the graph of f(x) = 0 from X0 = 1 to Xn =65 Using two rectangles equal width and four rectangles of equal width

(a) Approximate the area of the region beneath the graph of f(x) = e−x2, from x...

(a) Approximate the area of the region beneath the graph of f(x) = e−x2, from x = −1 to x = 1 using (i) four left rectangles, (ii) four right rectangles, and (iii) four midpoint rectangles (answer with 3 decimal points). (b) The actual area, to nine decimal places, of the region beneath the graph of f(x) = e−x2 is 1.493648266. Which of the approximations found in part (a) is the most accurate?

Approximate the area under the graph of f(x) and above the x-axis with rectangles, using the...

Approximate the area under the graph of f(x) and above the x-axis with rectangles, using the following methods with n=4. f(x)=6x+4 from x=3 to x=5 a) use left endpoints b)use right endpoints c) average the answers in parts a and b d) use midpoints

approximate the area under the graph of f(x) and above the x-axis with rectangles, using the...

approximate the area under the graph of f(x) and above the x-axis with rectangles, using the following methods with n=4. f(x)=4x+5 from x=4 to x=6 A) use left endpoints B) use right endpoints C) average the answers in parts a and b D) use midpoints

Approximate the area under the graph of​ f(x) and above the​ x-axis with​ rectangles, using the...

Approximate the area under the graph of​ f(x) and above the​ x-axis with​ rectangles, using the following methods with n=4 f(x)=e^x+5 from x=-2 to x=2 ​(a) Use left endpoints.   ​(b) Use right endpoints.   ​(c) Average the answers in parts​ (a) and​ (b) ​(d) Use midpoints.

Approximate the area under the graph of​ f(x) and above the​ x-axis with​ rectangles, using the...

Approximate the area under the graph of​ f(x) and above the​ x-axis with​ rectangles, using the following methods with n=4. f(x)=e^x+1 fromx=-2 to x=2 ​(a) Use left endpoints.   ​(b) Use the right endpoints.   ​(c) Average the answers in parts​ (a) and​ (b) ​(d) Use midpoints. The​ area, approximated using the left​ endpoints, is The​ area, approximated using the right​ endpoints, is The average of the answers in parts​ (a) and​ (b) is The​ area, approximated using the​ midpoints, is

Using rectangles whose height is given by the value of the function at the midpoint of...

Using rectangles whose height is given by the value of the function at the midpoint of the​ rectangle's base​ (the midpoint​ rule), estimate the area under the graph of the following​ function, using two and then four rectangles. y=25-x2 between x=-5 and x=5 For two​ rectangles, area ≈______ For two​ rectangles, area ≈______