Let t be a positive integer and `|((2t-1),m^2-1,cos^2(m)),(mC_t,2^m,cos^2(m)),(1,m+1,cos(m^2))|` then the value of `sum_(t=0)^m Delta_t` is equal to

Let m be a positive integer and Delta r=det[[m^(2)-1,*^(m)C_(r),1m^(2)-1,2^(m),m+1sin^(2)(m^(2)),sin^(2)m,sin(m^(2))]] of sum_(r=0)^(m)Delta r

If m is a positive integer and D_r=|(2r-1,\ ^m C_r,1),(m^2-1, 2^m ,m+1),(sin^2(m^2),sin^2(m),sin^2(m+1))| . Prove that sum_(r=0)^m D_r=0 .

If m and n are positive integers and f(x)=int_(1)^(x)(t-a)^(2n)(t-b)^(2m+1)dt,a!=b then

Suppose m and n are positive integers and let S=sum_(k=0)^(n)(-1)^(k)(1)/(k+m+1)(nC_(k)) and T=sum_(k=0)^(m)(-1)^(k)1(k+n+1)(mC_(k)) then S-T is equal to

Let z=cos theta+i sin theta then the value of sum_(m=1)^(30)Im(z^(2m-1)) at theta=2^(@) is.

Let T_(r) denote the rth term of a G.P.for r=1,2,3,... If for some positive integers m and n, we have T_(m)=1/n^(2) and T_(n)=1/m^(2) ,then find the value of T_(m+n/2)

If tan^-1 (sin^2theta - 2 m sintheta + 3m^2) + cot^-1(5^(sec^2y) + m^3) = pi/2 and m be the least value of (1 + sec^-1 t) (1 + cos^-1t), then the value of( |cos theta| - sin theta ) is equal to (1)m/2 (2)m (3)2m (4) m/4