440 INTEGRAL CALCULUS
6.∫ 414
x^3dx (Use 6 intervals)
[
(a) 1.875 (b) 2. 107
(c) 1.765 (d) 1. 916]7.∫ 621
√
(2x−1)dx (Use 8 intervals)
[
(a) 1.585 (b) 1. 588
(c) 1.583 (d) 1. 585]In problems 8 and 9 evaluate the definite inte-
grals using (a) the trapezoidal rule, (b) the
mid-ordinate rule, (c) Simpson’s rule. Use 6
intervals in each case and give answers correct
to 3 decimal places.8.∫ 30√
(1+x^4 )dx
[
(a) 10.194 (b) 10. 007
(c) 10. 070]9.∫ 0. 70. 11
√
(1−y^2 )dy[
(a) 0.677 (b) 0. 674
(c) 0. 675]- A vehicle starts from rest and its velocity is
measured every second for 8 s, with values as
follows:
timet(s) velocityv(ms−^1 )
00
1.0 0.42.0 1.0
3.0 1.7
4.0 2.9
5.0 4.1
6.0 6.2
7.0 8.0
8.0 9.4The distance travelled in 8.0 s is given by∫
8. 0
0 vdtEstimate this distance using Simpson’s rule,
giving the answer correct to 3 significant
figures. [28.8 m]- A pin moves along a straight guide so that
its velocityv(m/s) when it is a distancex(m)
from the beginning of the guide at timet(s)
is given in the table below.
t(s) v(m/s)
00
0.5 0.052
1.0 0.082
1.5 0.125
2.0 0.162
2.5 0.175
3.0 0.186
3.5 0.160
4.0 0Use Simpson’s rule with 8 intervals to deter-
mine the approximate total distance travelled
by the pin in the 4.0 s period. [0.485 m]