Use the Midpoint Rule with n = 4 to approximate the integral from 1 to 3...

Use the Midpoint Rule with the given value of n to approximate the integral. Round the...

Use the Midpoint Rule with the given value of n to approximate the integral. Round the answer to four decimal places. 10 x2 + 5 dx, n = 4 2

Use the Trapezoidal Rule, the Midpoint Rule, and Simpson's Rule to approximate the given integral with...

Use the Trapezoidal Rule, the Midpoint Rule, and Simpson's Rule to approximate the given integral with the specified value of n. (Round your answers to six decimal places.) 4 0 ln(5 + ex) dx, n = 8 (a) the Trapezoidal Rule (b) the Midpoint Rule (c) Simpson's Rule

Use the Midpoint Rule with the given value of n to approximate the integral. Round the...

Use the Midpoint Rule with the given value of n to approximate the integral. Round the answer to four decimal places. 6e^−0.7t dt, n = 5, Integral is [1,2] Then, (Integral is [1,5] 5 3x2e−xdx, n = 4 1

Use the midpoint rule with the given value of n=6 to approximate \int_0^3 sin(x^(3))dx

Use the midpoint rule with the given value of n=6 to approximate \int_0^3 sin(x^(3))dx

(a) Use the Trapezoidal rule with 4 equal partitions to approximate ? integral (from -1 to...

(a) Use the Trapezoidal rule with 4 equal partitions to approximate ? integral (from -1 to 1) (x^2 +1)dx via the formula Tn =(∆x/2)(y0+2y1+...+2yn−1+yn )with n=4, and ∆x=(b−a)/n (b) Compare the actual error, found by direct integration minus the approximation, with the known error bound for the Trapezoidal rule |ETn| ≤ (f′′(c)/12n^2) (b−a)^3, 12n2 where c is a point at which the absolute value of the second derivative is maximized.

Use the trapezoidal rule with n=4 steps to estimate the integral.   Integral from -1 to 1(x^2+6)dx...

Use the trapezoidal rule with n=4 steps to estimate the integral.   Integral from -1 to 1(x^2+6)dx (-1 is on the bottom)  

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 ?=?

Use the Midpoint Rule for the triple integral to estimate the value of the integral. Divide...

Use the Midpoint Rule for the triple integral to estimate the value of the integral. Divide B into eight sub-boxes of equal size. (Round your answer to three decimal places.)    1 ln(1 + 2x + 5y + z) dV, where B B = (x, y, z) | 0 ≤ x ≤ 4, 0 ≤ y ≤ 8, 0 ≤ z ≤ 4

Using both the Midpoint and Trapezoidal Rules with n subdivisions to approximate the integral of f(x)...

Using both the Midpoint and Trapezoidal Rules with n subdivisions to approximate the integral of f(x) over the interval from a to b numerically, where f(x) is concave up on [a,b], then we would find? Select one: A. Midpoint overestimates, Trapezoid underestimates, Midpoint is better B. Midpoint underestimates, Trapezoid overestimates, Midpoint is better C. Midpoint overestimates, Trapezoid underestimates, Trapezoid is better D. Midpoint underestimates, Trapezoid overestimates, Trapezoid is better also, If we used Gaussian Quadrature with 5 steps to approximate...

In the Midpoint Rule for triple integrals we use a triple Riemann sum to approximate a...

In the Midpoint Rule for triple integrals we use a triple Riemann sum to approximate a triple integral over a box B, where f(x, y, z) is evaluated at the center (xi, yj, zk) of the box Bijk. Use the Midpoint Rule to estimate the value of the integral. Divide B into eight sub-boxes of equal size. (Round your answer to three decimal places.) cos(xyz) dV, where B = {(x, y, z) | 0 ≤ x ≤ 2, 0 ≤...