Evaluate the indefinite integral as an infinite series. A) Evaluate the indefinite integral as an infinite series. 5 ex - 1/8x dx
© Evaluate the indefinite integral as an infinite se do series
Evaluate the given indefinite integral as a power series. State the interval of convergence. 25 S dx 1-23 E1 4381 on 7 Evaluate the given indefinite integral as a power series; state the interval of convergence: S (4 + x) dz
59.62 Evaluate the indefinite integral as an infinitc series, 62. arctan(..')dx
(1 point) For the following indefinite integral, find the full power series centered at 2 O and then give the first 5 nonzero terms of the power series and the open interval of convergence. $(t) = /2 2. In(1+x) dx f(t)=C+ n=1 f(t) = C+ + + +... The open interval of convergence is: (Give your answer in interval notation)
Youtube 6. Find an indefinite integral. x2(x + 2) da 7. Find an indefinite integral. cos²ix dx
Consider the indefinite integral 51 +6 dc: a) This can be transformed into a basic integral by letting U and du b) Performing the substitution yields the integral c) Once we integrate and substitute, the final answer in terms of x is:
1) Find the indefinite integral: S 12x3 dx = 12x tc 2) Find the indefinite integral: S 4x (2 - x)dx 3) Find the indefinite integral: S e4x(4)dx 4) Find the indefinite integral: Saxta dx
6. Find the indefinite integral. } (x 1/1 + x²) ax
Determine the following indefinite integral. Check your work by differentiation. 6 4% dx= | | (Use C as the arbitrary constant.) Determine the following indefinite integral. Check your work by differentiation. 6 4% dx= | | (Use C as the arbitrary constant.)