Use the Trapezoidal Rule to approximate 4 on top ∫ on bottom 2 (9x^2+1) dx using...

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.

(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, 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 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 trapezoidal rule with 4 rectangles to estimate the integral of ex^2 dx from 1...

Use the trapezoidal rule with 4 rectangles to estimate the integral of ex^2 dx 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 Midpoint Rule with n = 4 to approximate the integral from 1 to 3...

Use the Midpoint Rule with n = 4 to approximate the integral from 1 to 3 of 1/x dx.

dy/dx = x^4/y^2 initial condition y(1)= 1 a) use eulers method to approximate the solution at...

dy/dx = x^4/y^2 initial condition y(1)= 1 a) use eulers method to approximate the solution at x=1.6 and a step size od delta x = 0.2 b) solve the differential equation exactly using seperation variabled and the intial condtion y(1)=1. c) what is the exact value of y(1.6) for your solution from part b.

Use Simpson's Rule with n = 10 to approximate the area of the surface obtained by...

Use Simpson's Rule with n = 10 to approximate the area of the surface obtained by rotating the curve about the x-axis. Compare your answer with the value of the integral produced by your calculator. (Round your answer to six decimal places.) y = x +sqrt x, 2 ≤ x ≤ 5

dy/dx = x^4/y^2 a) use eulers method to approximate the solution at x =1.6 starting at...

dy/dx = x^4/y^2 a) use eulers method to approximate the solution at x =1.6 starting at the initial condition of y(1)=1 and a step size of delta x=0.2 b) solve this differential equation exactly using separation if variables and the inital condition y(1)=1 c) what is the exact vwlue of y(1.6) for the solution found in part b