Now recall the method of integrating factors: suppose we have a first-order linear differential equation dy + a(t)y = f(t). What we gonna do is to mul- tiply the equation with a so called integrating factor µ. Now the equation becomes μ(+a(t)y) = µf(t). Look at left hand side, we want it to be the dt = a(t)μ(explain derivative of µy, by the product rule. Which means that d why?). Now use your knowledge on the first-order linear homogeneous equa- tion (y' + a(t)y = 0) to solve for µ. Find the general solutions to y' = 16 — y²(explicitly). Discuss different inter- vals of existence in terms of different initial values y(0) = y