4.1 Indefinite integrals 209example, find the solutions of the following differential equations satisfying the
given boundary conditions.
(a) Lx=0,y =1when x=0 11ns.:y = 1
(b)±x=1,y=2when x=3 Ans.:y=x-1
dy
(c) =cos 2x, y = 0 when x = 0 lIns.: y = sin 2x
dx(d)ay=ea=,y=1when x=0
dxAns.:y=-Tear+s
9 A body moves to and fro on a line in such a way that its scalar velocity
v at time t is given by the formulav=t2-8t+15.
During what interval of time is the scalar velocity negative, and how far does the
body move during that time? Hint: Ifs is the coordinate of the body at time t,
then ds/dt = v and hence
to3 -4t2+15t+c,
where c is a constant that is 0 if we choose the origin such that s = 0 when t = 0.
11n$.: g units.
10 If y is a function of x satisfying the differential equation(1)and if we know that y > 0, then we can divide by y to obtain the first and then
the rest of the formulas(2) y dx =k, log y = kx + c, y = ekx+o, y = ekxe°,where c is a constant that depends upon the particular function y with which
we started. But ec is a constant that we can call .1, so(3) y = Aekx.If we know that y satisfies the boundary condition y = yo when x = 0, then we
can put x = 0 in (3) to find that A = yo and hence(4) y = yoekxRemark: Without assuming that y 5-6 0, we can solve (1) with the aid of a trick.
Transposing a term in (1) and multiplying bye kx give the first and hence the
second of the formulasekx(dx-ky)=0, de kxy=0.