Use a finite approximation to estimate the area under the graph of the given function on...

1) Use finite approximation to estimate the area under the graph of f(x) = x^2 and...

1) Use finite approximation to estimate the area under the graph of f(x) = x^2 and above the graph of f(x) = 0 from Xo = 0 to Xn= 2 using i) a lower sum with two rectangles of equal width ii) a lower sum with four rectangles of equal width iii) an upper sum with two rectangles of equal width iv) an upper sum with four rectangles if equal width 2) Use finite approximation to estimate the area under...

Use finite approximation to estimate the area under the graph of f(x)=x2 and above the graph...

Use finite approximation to estimate the area under the graph of f(x)=x2 and above the graph of f(x)=0 from x0=0 to xn =12 using ​i) a lower sum with two rectangles of equal width. ​ii) a lower sum with four rectangles of equal width. ​iii) an upper sum with two rectangles of equal width. ​iv) an upper sum with four rectangles of equal width. The estimated area using a lower sum with two rectangles of equal width is ______ square...

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

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

Estimate the area under the graph of f left parenthesis x right parenthesis equals 5 x...

Estimate the area under the graph of f left parenthesis x right parenthesis equals 5 x cubed f(x)=5x3 between x equals 0 x=0 and x equals 1 x=1 using each finite approximation below. a. A lower sum with two rectangles of equal width b. A lower sum with four rectangles of equal width c. An upper sum with two rectangles of equal width d. An upper sum with four rectangles of equal width

Use a finite sum to estimate the area under the graph of the function f(x)=x^2-7 on...

Use a finite sum to estimate the area under the graph of the function f(x)=x^2-7 on [-3,7] divided into 5 subintervals and evaluation the function at the right -end points of the subinterval.

(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

For the function f(x) = x, estimate the area of the region between the graph and...

For the function f(x) = x, estimate the area of the region between the graph and the horizontal axis over the interval 0≤x≤4 using a . a. Riemann Left Sum with eight left rectangles. b. Riemann Right Sum with eight right rectangles. c. A good estimate of the area.

A) Find an approximation of the area of the region R under the graph of the...

A) Find an approximation of the area of the region R under the graph of the function f on the interval [0, 2]. Use n = 5 subintervals. Choose the representative points to be the midpoints of the subintervals. f(x)=x^2+5 =_____ square units B) Find an approximation of the area of the region R under the graph of the function f on the interval [-1, 2]. Use n = 6 subintervals. Choose the representative points to be the left endpoints...

Estimate the area under the graph of f ( x ) = 1 x + 1...

Estimate the area under the graph of f ( x ) = 1 x + 1 over the interval [ 3 , 5 ] using two hundred approximating rectangles and right endpoints R n = Repeat the approximation using left endpoints L n =