solve using the fundamental law of calculus if
applicable
Evaluate the definite integral La 2e (Inx) dx x
13. S(3 – 2x – 4x²)(1+4x) dx 14. S Inx) dx =
Integration By Parts: Evaluate the integral. Hint: Use ſuav=UV- (v.au 1 x Inx dx 1+ln(2) In(2) O2 21n(2)
of 3. Solve the differential equation y de + - dx +(2y Inx - 3sin (3y)) dy = 0.
Evalua la integralEvaluate the integal sech (x- dx 2 dx 2 ext2 dy 1 X+3
Evalua la integralEvaluate the integal sech (x- dx 2 dx 2 ext2 dy 1 X+3
Problem 7 (5 points each) a./ (Inx) dx b. fx.ex+3dx c. ſcosx. 5sinx+3dx
please explain the steps to your solution using Microsoft excel to
Compute the answer
7) From x-1 tox-2, find the values of the function whose derivative is dy Inx) + xy dx using the 2"d order Runge-Kutta approximation and a Ax of 0.1. At x 1, y-1.
7) From x-1 tox-2, find the values of the function whose derivative is dy Inx) + xy dx using the 2"d order Runge-Kutta approximation and a Ax of 0.1. At x 1, y-1.
Q2) Evaluates the following (Answer three only): 1) Se1 - e2xdx 73 - 3x2-4x+12 dx X-3 2) 5+ 3x 3) S x-1 . dx 4) S (x + 1)(x - 4)100 dx
This Question: 8 pts 3 of 12 (0 complete) 5 Inx Evaluate the iterated integral given that the evaluation of the inner integral is 2x SS 5 Inx dy dx 4xy 1 1 SS 5 Inx dydx = 4xy Enter your answer in the answer box
Determine the solution of the differential equation [xcos? (Ⓡ)- y) dx + xdy = 0 a. b. Inx + tan-C Inx - tanc Inx + sectan-C Inx - sec tan-C c. d. OD 3 0