Evaluate the following integral using integration by parts. [ 190 sec?o de Use the integration by parts formula so that the new integral is simpler than the original one. Choose the correct answer below. O A. 190 tan 0- o-f(19 tan 6) de OB. 19 sec 0 - (190 tan e) do - ſicoso) + ſ(19 sec OC. Otan - (cos 0) de OD. 190 cos 0+ (19 sec ) do Evaluate the integral [190 sec pod do =
Evaluate the following integral using integration by parts. [ 190 sec?o de Use the integration by parts formula so that the new integral is simpler than the original one. Choose the correct answer below. O A. 190 tan 0- o-f(19 tan 6) de OB. 19 sec 0 - (190 tan e) do - ſicoso) + ſ(19 sec OC. Otan - (cos 0) de OD. 190 cos 0+ (19 sec ) do Evaluate the integral [190 sec pod do =
Use substitution to evaluate the definite integral given below. -- tan* (3*) sec* (33°) de (Enter an exact answer.) Provide your answer below: S. - x tan* (3x)secº ( 3x?) ck=
Evaluate the integral. tan 5x sec25x dx al ſ tan 5x sec ?5x dx = 0 TEL
(3) Evaluate the indefinite integral. tan(t) + cos2 () de Con)
(1 point) Evaluate the indefinite integral. sec z tan 2(2 + sec )1/2 do
1. Compute the following integrals. (a) [6pts] | Vi Ina de (b) (ópts/ tan” x sec x dx dx (0) [10pts) / vz2+1 х 5.x2 - x + 2 (a) [10pts] / dx x3 + x (e) [6pts] dx 1 (6) (6pts | e-</2 dx
1. Evaluate the indefinite integral sen (2x) – 7 cos(9x) – sec°(3x) dx = 2. Evaluate the indefinite integral | cor(3x) – sec(x) tant(x) + 9 tan(2x) dx = 3. Calculate the indefinite integral using the substitution rule | sec?0 tan*o do =
QUESTION 18 Use the substitution z = tan(x/2) to evaluate the integral / 3-cos e de ОА. tan-1 ( ✓2 tan 2 --()) +C OB. tan tan +C V2 OC V2 tan 2 Etan () )+c 2 OD. 1 tan tan +C 2 OE. tan V2 tan +C 2
Evaluate the spherical coordinate integral. 1/ 27/ 37 sec 10) 4 sin2 pcos y de dode O O 6 sec 4 10)