The moment when A is at `(1,2) and B is at (0,0)`. The derivative `(dx_(B))/(dx_(A))`, is

The moment when A is at (0,0) and B is at (1,2) . The derivative (dy)/(dx) of line AB is

Differentiate (x+2)/(x^2-3) and find the value of the derivative at x = 0.

Let a gt 0 and f(x) is monotonic increase such that f(0)=0 and f(a)=b, "then " int_(0)^(a) f(x) dx +int_(0)^(b) f^(-1) (x) dx is equal to (a) a+b " " (b) ab+b (c) ab+a " " (d) ab

Verify that the function y = a cosx + b sinx , where, a,b in R is a solution of the differential equation ((d^2y)/dx^2) + y = 0

Show that the function y=Ax+B/x , x ne 0 , is a solution of the differntial equation. x^2((d^2y)/(dx^2))+x(dy)/(dx)-y=0

If x = a cos theta + b sin theta and y =asin theta-b cos theta , then prove that y^2 (d^2y)/(dx^2)-x(dy)/(dx)+y=0

If x = a cos θ + b sin θ and y = a sin θ − b cos θ , then prove that y^2(d^2y)/(dx^2)-x(dy)/(dx) +y=0

Solve the differential equation (d^2y)/(dx^2)=x+sinx subject to the condition that (dy)/(dx)=0 and y=0 when x=0 .

int_0^(sqrt3) (dx)/(1+x^2) dx is equal to :

Evaluate int_(0)^(1) 2/(2x+12) dx