If `f(x)` is a function satisfying `f(1/x)+x^2f(x)=0` for all nonzero `x` , then evaluate `int_(sintheta)^(cos e ctheta)f(x)dx`

If f(x) is a function satisfying f((1)/(x))+x^(2)f(x)=0 for all nonzero x, then evaluate int_(sin theta)f(x)dx

If f(x) is a function satisfying f((1)/(x))+x^(2)f(x)=0 for all non zero x then, int_(sin theta)^("cosec" theta) f(x)dx equals

If f(x) is a function satisfying f(1/x)+x^(2)f(x)=0 for all non zero x then int_(cos theta)^(sec theta)f(x)dx=

If f(x) is a function satisfying f(1/x)+x^(2)f(x)=0 for all non zero x then int_(cos theta)^(sec theta)f(x)dx=

If f(x) is a function satisfying f(x+a)+f(x)=0 for all x in R and positive constant a such that int_(b)^(c+b)f(x)dx is independent of b, then find the least positive value of c.

If f(x) is a function satisfying f(x+a)+f(x)=0 for all x in R and positive constant a such that int_b^(c+b)f(x)dx is independent of b , then find the least positive value of c

If f(x) is a function satisfying f(x+a)+f(x)=0 for all x in R and positive constant a such that int_b^(c+b)f(x)dx is independent of b , then find the least positive value of c

If f(x) is a function satisfying f(x+a)+f(x)=0 for all x in R and positive constant a such that int_b^(c+b)f(x)dx is independent of b , then find the least positive value of cdot

If f(x) is a function satisfying f(x+a)+f(x)=0 for all x in R and positive constant a such that int_b^(c+b)f(x)dx is independent of b , then find the least positive value of cdot