Approximate the area under the curve y= x2-2x+4 between x=1 and x=4 by using 6 inscribed...

Approximate the area under the curve y = 12x−4x2 between x = 0 and x =...

Approximate the area under the curve y = 12x−4x2 between x = 0 and x = 2 using four rectangles of the same width and the right-hand endpoint method.

approximate the area under the curve y=12x-4x2 between x=0 and x=2 using four rectangles of the...

approximate the area under the curve y=12x-4x2 between x=0 and x=2 using four rectangles of the same width and the right hand endpoint method

f(x) = 2x  from  a = 4  to  b = 5 (a) Approximate the area under the curve from a...

f(x) = 2x  from  a = 4  to  b = 5 (a) Approximate the area under the curve from a to b by calculating a Riemann sum using 5 rectangles. Use the method described in Example 1 on page 351, rounding to three decimal places.   square units (b) Find the exact area under the curve from a to b by evaluating an appropriate definite integral using the Fundamental Theorem.    square units

Estimate the area under the curve described by f(x)=x2+1 between [1, 3] using 8 rectangles. You...

Estimate the area under the curve described by f(x)=x2+1 between [1, 3] using 8 rectangles. You may define the height of your rectangles using the left- or right-edge.

Approximate the area under the curve over the specified interval by using the indicated number of...

Approximate the area under the curve over the specified interval by using the indicated number of subintervals (or rectangles) and evaluating the function at the right-hand endpoints of the subintervals. f(x) = 25 − x2 from x = 1 to x = 3; 4 subintervals

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?

Use finite approximations to estimate the area under the graph of the function ​f(x) = 24−x2+2x...

Use finite approximations to estimate the area under the graph of the function ​f(x) = 24−x2+2x between x = −4 and x = 6 for each of the following cases. a. Using a lower sum with two rectangles of equal width b. Using a lower sum with four rectangles of equal width c. Using an upper sum with two rectangles of equal width d. Using an upper sum with four rectangles of equal width

Use finite approximations to estimate the area under the graph of the function ​f(x) =8−x2+2x between...

Use finite approximations to estimate the area under the graph of the function ​f(x) =8−x2+2x between x = −2 and x = 4 for each of the following cases. a. Using a lower sum with two rectangles of equal width b. Using a lower sum with four rectangles of equal width c. Using an upper sum with two rectangles of equal width d. Using an upper sum with four rectangles of equal width

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

1. 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) = −x2 + 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. 2. 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)...

Estimate the area under the graph of fx=1+x2 from x=-1 to x=3 using 4 rectangles and...

Estimate the area under the graph of fx=1+x2 from x=-1 to x=3 using 4 rectangles and midpoints.