Revision Test 14
This Revision Test covers the material contained in Chapters 46 to 49.The marks for each question are shown in
brackets at the end of each question.
- Solve the differential equation:x
dy
dx+x^2 =5given
thaty= 2 .5whenx=1. (4)- Determine the equation of the curve which satisfies
thedifferential equation2xydy
dx=x^2 +1andwhich
passes through the point (1, 2). (5)- A capacitorCis charged by applying a steady volt-
ageEthrough a resistanceR. The p.d. between the
plates,V, is given by the differential equation:
CRdV
dt+V=E(a) Solve the equation forVgiven that when time
t=0,V=0.
(b) Evaluate voltage V when E= 50 V,C= 10 μF,
R=200kandt= 1 .2s. (14)- Show that the solution to the differential equation:
4 xdy
dx=x^2 +y^2
yis of the form3 y^2 =√
x(
1 −√
x^3)
given that y=0when
x= 1. (12)- Show that the solution to the differential equation
xcosx
dy
dx+(xsinx+cosx)y= 1is given by: xy=sinx+kcosx where k is a
constant. (11)- (a) Use Euler’s method to obtain a numerical
solution of the differential equation:
dy
dx
=y
x+x^2 − 2given the initial conditions thatx=1when
y=3, for the rangex= 1 .0 (0.1) 1.5(b) Apply the Euler-Cauchy method to the differ-
ential equation given in part (a) over the same
range.(c) Apply the integrating factor method to
solve the differential equation in part (a)
analytically.(d) Determine the percentage error, correct to 3 sig-
nificant figures, in each of the two numerical
methods whenx= 1. 2 (30)- Use the Runge-Kutta method to solve the dif-
ferential equation:
dy
dx=y
x+x^2 −2 in the range
1.0(0.1)1.5, given the initial conditions that at
x=1,y=3. Work to an accuracy of 6 decimal
places. (24)