A : The general solution of `sin x = -1` is `n pi + (-1)^(n)(3pi)/(2), n in Z`
R : The principal solution of sin x = 0 lies in `[-pi//2, pi//2]`

Show that the solution of cos theta - sin theta = -1 is 2npi pm (3pi)/(4) - (pi)/(4), n in Z

The number of solutions of the equation sin^(-1)x+sin^(-1)2x=pi/3 is

{:(" Column I "," Column II "),("A) The number of solution of " (x)/(2) + (sin x)/( cos x) = (pi)/(4) i n ( - pi, pi),"p) 0 "),("B) The number of solutions of "x^(4) - 2 x^(2) sin^(2)""(pi x)/(x) + 1 = 0 is ,"q 1 "),("C) The number of solutions of " x^(2) + x + 2 sec^(2) pi x + tan^(2) pi x = 0,"r) 2 "),("D) The number of solutions of " 16 (x^(2) + 1) + pi^(2) = |tan x| + 8 pi x in (-(pi)/(2), (3 pi)/(2)) x ne (pi)/(2) is ,"s) 3 "),("E) The number of solutions of "2^(|cos x|)= 4 ^(|cos x|) i n [ - pi, pi] is x ne (pi)/(2),"t) 4 "):}

The solution set of sin(x+(pi)/4)=sin 2x

If the general solution of sin 5x = cos 2x is of the form a_(n),(pi)/(2)" or "n=0, pm 1, pm2,....," then "a_(n)=

The number of solution of sin^(4) x - cos^(2) x sin x + 2 sin^(2) x + sin x = 0 i n 0 le x le 3 pi is

The period of sin (pix )/( n ) - cos ((pi x)/( n+1)) is