given:f(x)=x2e-x+5 use 7 intervals from 3 to 7.2 to approximate the area using a.left rectangle b.right...

Approximate the area under the curve, f(x) graphed below from x=3 to x=8 using a Left...

Approximate the area under the curve, f(x) graphed below from x=3 to x=8 using a Left Endpoint approximation with 5 subdivisions. Round your answer to 3 decimal places. f(x)=1.3√x

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

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

f(x) = 1/x   from  a = 1  to  b = 3. (a) Approximate the area under the curve from...

f(x) = 1/x   from  a = 1  to  b = 3. (a) Approximate the area under the curve from a to b by calculating a Riemann sum using 10 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

F(x)=4x-x^2 x= 0 to 2 two sub intervals Approximate the area under the curve over the...

F(x)=4x-x^2 x= 0 to 2 two sub intervals Approximate the area under the curve over the interval.

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

a rectangle that is x feet wide is inscribed in a circle of radius 7 ft....

a rectangle that is x feet wide is inscribed in a circle of radius 7 ft. . a)express the area of the rectangle as a function of x. b) find the domain of the function c) graph the function with a graphing calculator d) what dimensions mazimize the area of the rectangle a(x) =

Use the Trapezoidal Rule to approximate 8 on top ∫ on the bottom 5 ln(x^2+4) dx...

Use the Trapezoidal Rule to approximate 8 on top ∫ on the bottom 5 ln(x^2+4) dx using n=3. Round your answer to the nearest hundredth.