MATHEMATICS
INTEGRAL CALCULUS
CE LICENSURE EXAMINATION PROBLEMS 7. Evaluate the integral of x cos 2x dx with limits from 0 to /4. (N99
INTEGRAL CALCULUS M 7)
a. 0.143 c. 0.114
b. 0.258 d. 0.186
FIRST ORDER INTEGRALS
x2 + 1 8. Evaluate (M00 M 8)
1. Evaluate the integral of e 2x dx. (M94 M 20)
/2
∫
x2 + 1
e 2
x +1 3 e3 sin cos d
a. +C c. e +C
ln 2 0
b. e2x + C d. 2x ex + C a. 15.421 c. 17.048
b. 19.086 d. 20.412
2. Evaluate the integral of 8x dx. (M94 M 21)
8x + C 9. Evaluate the integral of x dx / (x2 + 2) with limits from 0 to 1. (N00
a. c. x ln 8 + C M 9)
ln 8
a. 0.322 c. 0.203
b. 8x + C d. 8x ln 8 + C b. 0.108 d. 0.247
3. What is the integral of cos 2x esin 2x dx? (M95 M 19) 10. Evaluate the integral of x cos 4x dx with lower limit of 0 and upper
a. -esin 2x + C c. esin 2x + C limit of /4. (N01 M 13)
sin 2x
b. e /2+C d. -esin 2x / 2 + C a. 1
/8 c. 1
/16
1
b. - /8 d. -1/16
4. Evaluate the integral of x dx / (x + 1)8 if it has an upper limit of 1
and a lower limit of 0. (M96 M 7)
a. 0.022 c. 0.056 MULTIPLE INTEGRALS
b. 0.043 d. 0.031
11. Evaluate the integral of (3x2 + 9y2) dx dy if the interior limit has an
5. Find the value of the integral of x(x – 5)12 dx using the limit 5 to 6. upper limit of y and a lower limit of 0, and whose outer limit has
(M97 M 2) an upper limit of 2 and lower limit of 0. (N96 M 4)
a. 0.456 c. 0.672 a. 10 c. 40
b. 0.708 d. 0.537 b. 30 d. 20
6. Evaluate (M99 M 12) 12. Evaluate (M99 M 13)
2 2y
∫
4 dx
3x + 2
1
∫∫ 1 0
(x2 + y2) dx dy
a. 4 ln (3x + 2) + C c. /3 ln (3x + 2) + C a. 35
/2 c. 17
/2
4
b. /3 ln (3x + 2) + C d. 2 ln (3x + 2) + C b. 19
/2 d. 37
/2
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INTEGRAL CALCULUS
WALLIS’ FORMULA b. 0.432 d. 0.245
EQUATION OF CURVES
13. What is the integral of sin5x dx if the lower limit is 0 and the upper
limit is /2? (N94 M 16) 21. If the first derivative of the equation of a curve is a constant, the
a. 0.20 c. 1.6755 curve is: (M94 M 17)
b. 0.5333 d. 0.6283 a. circle c. hyperbola
b. straight line d. parabola
14. Evaluate the integral of sin5x cos3x dx with the upper limit equal to
/2 and a lower limit of 0. (N95 M 16) 22. The slope of the curve at any point is given as 6x – 2 and the curve
a. 1
/24 c. 1
/48 passes through (5, 3). Determine the equation of the curve. (N00 M
b. 1
/36 d. 1
/12 8)
a. 3x2 – 2x – y – 62 = 0 c. 2x2 + 3x – y – 62 = 0
2
15. Find the integral of 12 sin5x cos5x dx if lower limit = 0 and upper b. 2x – 3x + y + 62 = 0 d. 3x2 + 2x – y + 62 = 0
limit = /2. (M96 M 27)
a. 0.2 c. 0.6
b. 0.8 d. 0.4 VELOCITY AND ACCELERATION
23. A body moves such that its acceleration as a function of time is a
16. Using lower limit = 0 and upper limit = /2, what is the integral of
= 2 + 12t, where t is in minutes and a is in m/min2. Its velocity
15 sin7x dx? (N97 M 6)
after 1 minute is 11 m/min. Find its velocity after 2 minutes. (M01
a. 6.783 c. 6.539
M 25)
b. 6.857 d. 6.648
a. 31 m/min c. 45 m/min
b. 23 m/min d. 18 m/min
17. Evaluate the integral of 5 cos6x sin2x dx using lower limit = 0 and
upper limit = /2. (M98 M 26)
a. 0.3068 c. 0.6107 PLANE AREAS IN RECTANGULAR COORDINATES
b. 0.5046 d. 0.4105
24. What is the area bounded by the curve x2 = 9y and the line y – 1 =
18. Evaluate the integral of 3 sin3x dx using lower limit of 0 and upper 0? (N94 M 17)
limit = /2. (N98 M 29) a. 6 c. 4
a. 2.0 c. 1.4 b. 5 d. 3
b. 1.7 d. 2.3
25. What is the area bounded by the curve y2 = x and the line x – 4 =
19. Determine the value of the integral of sin53x dx with limits from 0 0? (M95 M 20)
to /6. (N02 M 17) a. 10 c. 31
/3
a. 0.324 c. 0.275 b. 32
/3 d. 11
b. 0.178 d. 0.458
26. What is the area bounded by the curves y2 = 4x and x2 = 4y? (M96
6
20. Using limits 0 to /4, find the integral of sin 2x dx. (M03 M 17) M 6)
a. 0.137 c. 0.322 a. 6.0 c. 6.666
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INTEGRAL CALCULUS
b. 7.333 d. 5.333
27. Find the area enclosed by the curve x2 + 8y + 16 = 0, the X-axis, MOMENT OF INERTIA OF AN AREA
the Y-axis, and the line x – 4 = 0. (M97 M 1)
a. 8.7 c. 10.7 34. Find the moment of inertia of the area bounded by the parabola y2
b. 9.7 d. 7.7 = 4x, X-axis and the line x = 1, with respect to the X-axis. (N95 M
18)
28. What is the area bounded by the curves y2 = 4x and x2 = 4y? (N00 a. 1.067 c. 0.968
M 7) b. 1.244 d. 0.878
a. 6.0 c. 6.666
b. 7.333 d. 5.333 35. Determine the moment of inertia about the X-axis, of the area
bounded by the curve x2 = 4y, the line x = -4, and the X-axis. (M00
29. Find the area bounded by the curve y = 4 sin x and the X-axis from M 19)
x = /3 to x = . (M01 M 11) a. 9.85 c. 10.17
a. 9 square units c. 8 square units b. 13.24 d. 12.19
b. 12 square units d. 6 square units
36. Determine the moment of inertia of the area bounded by the curve
30. Determine the area bounded by the curves x = 1/y, 2x – y = 0, x = x2 = 4y, the line x – 4 = 0 and the X-axis, with respect to the Y-
6, and the X-axis. (N01 M 21) axis. (N01 M 18)
a. 2.138 c. 2.324 a. 51.2 c. 52.1
b. 2.328 d. 2.638 b. 25.1 d. 21.5
31. Determine the area bounded by the curves y2 = 4x and y2 = 8(x –
1). (M02 M 12) AREAS IN POLAR COORDINATES
a. 5.24 square units c. 3.77 square units
b. 2.41 square units d. 4.74 square units 37. Find the area bounded by the curve r2 = a2 cos 2. (N96 M 5)
a. 3a2 c. a2
2
32. What is the area bounded by the curve y = 6 cos x and the X-axis b. 4a d. 2a2
from x = /6 to x = /2? (N03 M 21)
a. 2 c. 4 38. What is the area within the curve r2 = 16 cos ? (N97 M 9)
b. 3 d. 1 a. 26 c. 32
b. 30 d. 28
CENTROID OF A PLANE AREA 39. Determine the area enclosed by the curve r2 = a2 cos 2. (N98 M
15)
33. How far from the Y-axis is the centroid of the area bounded by the a. 3a2 c. 4a2
curve x2 = 16y, the line x = 12, and the X-axis. (N99 M 30) b. 2a 2
d. a2
a. 8 c. 10
b. 9 d. 7 40. Find the area enclosed by r2 = 2a2 cos . (M99 M 14)
a. 2a2 c. 4a2
2
b. a d. 3a2
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INTEGRAL CALCULUS
b. 2228.8 d. 2208.5
VOLUMES OF SOLIDS OF REVOLUTION 47. The area enclosed by the ellipse x2/9 + y2/4 = 1 is revolved about
the line x = 3. What is the volume generated? (M97 M 12)
41. Given is the area in the first quadrant bounded by x2 = 8y, the line a. 370.3 c. 355.3
y – 2 = 0 and the Y-axis. What is the volume generated when this b. 360.1 d. 365.1
area is revolved about the line y – 2 = 0? (N94 M 18)
a. 28.41 c. 27.32 48. The area in the second and third quadrants of the curve x2 + y2 – 9
b. 26.81 d. 25.83 = 0 is revolved about the line x – 3 = 0. Find the volume
generated. (M01 M 16)
42. Given is the area in the first quadrant bounded by x2 = 8y, the line a. 534.54 c. 379.58
x = 4 and the X-axis. What is the volume generated by revolving b. 112.97 d. 274.34
this area about the Y-axis? (M95 M 21)
a. 50.26 c. 53.26 49. The area enclosed by the curve x2 + y2 = 25 is revolved about the
b. 52.26 d. 51.26 line x – 10 = 0. Find the volume generated. (N02 M 10)
a. 4,935 c. 4,768
43. The area bounded by the curve y2 = 12x and the line x = 3 is b. 4,651 d. 4,549
revolved about the line x = 3. What is the volume generated? (N95
M 12)
a. 186 c. 181 CENTROID OF A SOLID OF REVOLUTION
b. 179 d. 184
50. The area in the first quadrant, bounded by the curve y2 = 4x, the Y-
44. The area bounded by the curve y = sin x from x = 0 to x = is axis and the line y – 6 = 0 is revolved about the line y = 6. Find the
revolved about the X-axis. What is the volume generated? (N00 M centroid of the solid formed. (M98 M 27)
10) a. (2.2, 6) c. (1.8, 6)
a. 2.145 cu. units c. 3.452 cu. units b. (1.6, 6) d. (2.0, 6)
b. 4.935 cu. units d. 5.214 cu. units
51. A solid is formed by revolving about the Y-axis, the area bounded
45. Determine the volume generated by revolving the area in the first by the curve x3 = y, the Y-axis and the line y = 8. Find its centroid.
and second quadrants bounded by the ellipse 4x2 + 25y2 = 100 and (N98 M 19)
the X-axis, about the X-axis. (M03 M 10) a. (0, 4.75) c. (0, 5.25)
a. 85.63 c. 95.35 b. (0, 4.5) d. (0, 5)
b. 93.41 d. 83.78
WORK
SECOND THEOREM OF PAPPUS
52. A conical tank 12 ft high and 10 ft across the top is filled with a
46. 2 2
The area in the second quadrant of the circle x + y = 36 is liquid that weighs 62.4 pcf. How much work is done in pumping
revolved about the line y + 10 = 0. What is the volume generated? all the liquid at the top of the tank? (M02 M 18)
(M96 M 28) a. 58,811 ft-lb c. 59,475 ft-lb
a. 2218.6 c. 2233.4 b. 63,421 ft-lb d. 47,453 ft-lb
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INTEGRAL CALCULUS
LENGTH OF PLANE CURVES
53. Find the length of the arc of x2 + y2 = 64 from x = -1 to x = -3, in
the second quadrant. (M98 M 21)
a. 2.24 c. 2.75
b. 2.61 d. 2.07
LENGTH OF POLAR CURVES
54. What is the total length of the curve r = 4sin? (M03 M 14)
a. 8 c. 2
b. d. 4
55. What is the perimeter of the curve r = 4(1 - sin)? (N03 M 19)
a. 32.00 c. 25.13
b. 30.12 d. 28.54
LENGTH OF PARAMETRIC EQUATIONS
56. Find the length of one arc of the curve whose parametric equations
are x = 2 - 2sin and y = 2 – 2cos. (N02 M 18)
a. 16 c. 14
b. 18 d. 12
FIRST THEOREM OF PAPPUS
57. Find the surface area generated by rotating the first quadrant
portion of the curve x2 = 16 – 8y about the Y-axis. (N03 M 20)
a. 58.41 c. 61.27
b. 64.25 d. 66.38
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