A function `y = f(x)` satisfying the differential `(dy)/(dx)*sin x -y cos x+sin^2 x/x^2=0` such that , `y -> 0` as `x -> oo` then :

A function y = f(x) satisfies the differential (dy)/(dx)*sin x -y cos x+sin^2 x/x^2=0 such that y -> 0 as x -> oo . Then:

A function y=f(x) satisfies the differential equation (dy)/(dx)-y=cos x-sin x with initial condition that y is bounded when x,oo. The area enclosed by y=f(x),y=cos x and the y-axis is

A function y=f(x) satisfies the differential equation (dy)/(dx)-y= cosx-sin x with initial condition that y is bounded when x _> oo . The area enclosed by y=f(x), y=cos x and the y-axis is

A function y=f(x) satisfies the differential equation (dy)/(dx)-y= cosx-sin x with initial condition that y is bounded when x to oo . The area enclosed by y=f(x), y=cos x and the y-axis is

Solve the differential equation sin x(dy)/(dx)+y cos x=2sin^(2)x cos x

If y(x) satisfies the differential equation y'+y=2(sin x+cos x) and y(0)=1 ,then

The graph of the function y = f(x) passing through the point (0, 1) and satisfying the differential equation (dy)/(dx) + y cos x = cos x is such that

The graph of the function y = f(x) passing through the point (0, 1) and satisfying the differential equation (dy)/(dx) + y cos x = cos x is such that

Solve the differential equation: x(dy)/(dx)-2y=x^2+sin(1/x^2),x>0

Solution of the differential equation sin x. cos y dy + cos x. sin y dx = 0 is