How do you evaluate the integral #int sec2xdx# from 0 to #pi/2#? Calculus Introduction to Integration Definite and indefinite integrals 1 Answer Shwetank Mauria Apr 26, 2017 #int_0^(pi/2) sec2xdx=0# Explanation: Let #2x=u# then #2dx=du# Now #intsec2xdx=1/2intsecudu# = #1/2int(secu(secu+tanu))/(secu+tanu)du# = #1/2int(sec^2u+secutanu)/(tanu+secu)du# As #d/dx(tanu+secu)=sec^2x+secxtanx#, the above is = #1/2ln|secu+tanu|+c# = #1/2ln|sec2x+tan2x|+c# Hence, #int_0^(pi/2) sec2xdx# = #1/2[ln|sec2x+tan2x|]_0^(pi/2)# = #1/2[ln|-1+0|-ln|1-0|]=0# Answer link Related questions What is the difference between definite and indefinite integrals? What is the integral of #ln(7x)#? Is f(x)=x^3 the only possible antiderivative of f(x)=3x^2? If not, why not? How do you find the integral of #x^2-6x+5# from the interval [0,3]? What is a double integral? What is an iterated integral? How do you evaluate the integral #1/(sqrt(49-x^2))# from 0 to #7sqrt(3/2)#? How do you integrate #f(x)=intsin(e^t)dt# between 4 to #x^2#? How do you determine the indefinite integrals? How do you integrate #x^2sqrt(x^(4)+5)#? See all questions in Definite and indefinite integrals Impact of this question 2785 views around the world You can reuse this answer Creative Commons License