Study Guide for Final Examination s1
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Study Guide for Final Examination
MATH 1113
1. Let fx=x2-2x. Compute the following.
(a) f3 (b) f0
(c) fa (d) fa+2
(e) fx+h (f) fx+h-fxh, h≠0
2. Find the domain of the following functions.
(a) fxx2-2x (b) fx=1x+3
(c) fx=x+3 (d) fx=1x+3
(e) fx=ex (f) fx=lnx
(g) fx=sinx (h) fx=tanx
(i) fx=cscx (j) fx=sin-1x
(k) fx=tan-1x
3. Find and simplify f∘gx.
(a) fx=3x+2; gx=23x
(b) fx=4x2+2x+8; gx=2x-3
4. Find the inverse of the following functions.
(a) fx=133+x (b) fx=x3+3
5. Sketch the graph of the inverse of the following function.
6. Put the following equations of conic sections in standard graphing form by completing the square. Then graph the conic sections. Give the following information for each conic section.
Parabola: vertex, axis of symmetry, focus, and directrix.
Ellipse: center, vertices, covertices, major axis, minor axis, foci, and eccentricity.
Hyperbola: center, vertices, transverse axis, conjugate axis, foci, and eccentricity.
(a) 4x2+y2-16x+2y+13=0
(b) x=2y2+2y+3
(c) 9x2-4y2+36x+8y-4=0
7. Find the equation, in standard form, of the parabola with vertex (7, −9) and focus (5, −9).
8. Find all the asymptotes of the graph of fx=5x-24x2-7x.
9. Consider the function fx=3x2-5x-2x2-4. The graph of f will have a vertical asymptote at ______and will have a missing point at x = ______.
10. Find the oblique asymptote of the graph of fx=x2-17x+72x+3.
11.
12.
13. Find the balance when$19,000 is invested at an annual rate of 6% for 5 years if the interest is compounded
(a) daily
(b) continuously.
14. How long will it take money to double at 17% interest compounded monthly?
15. (a) The angle of depression from a tower to a landmark is 19° and the landmark is 400 feet below the tower. How far away is the landmark?
(b) Suppose the angle of elevation of the sun is 23.4°. Find the length of the shadow cast by Cindy Newman who is 5.75 feet tall.
16. If cosθ=-45 and π2≤θ<π, find sec θ and cot θ.
17. Find where the graphs of the following functions have vertical asymptotes or horizontal asymptotes or state there are no asymptotes.
(a) y=sinx (b) y=tanx
(c) y=cscx (d) y=cos-1x
(e) y=tan-1x
18. Find the exact value of the following.
(a) sin-1-32 (b) cos-1-22
(c) tan-11 (d) sin-1sin5π4
(e) tantan-11π (f) cos-1cos-π3
19. Solve the following trigonometric equations.
(a) 2sinx+1=0 (b) 2cos2x+sinx-1=0
(c) cos3x=-12 (d) tan3x-tanx=0
20. Approximate the solutions for each equation on the interval 0≤x<2π. Round your answer to four decimal places.
(a) sinx=-0.739 (b) cosx=0.4201
(c) tanx=-5.17
21. Establish the following trigonometric identities.
(a) tanxsinx=sec x (b) sin2t+cos2ttant=cott
(c) sinx-cosxsinx=1-cotx (d) 1-cosθtan2θ=cos2θcosθ+1
(e) cosx-1sinx=cotx-cscx
22. Solve the following oblique triangles.
(a) A = 30°, b = 12, c = 16 (b) a = 3.55, b = 4.08, c = 2.83
(c) B = 62.3°, C = 51.9°, c = 11.3 (d) C = 57.47°, b = 8.841, c = 0.777
(e) A = 22°, a = 10, c = 15
23. Find the area of the triangle ABC given a = 8.5, B = 102°, and C = 27°.
24. Convert the following polar equations into rectangular equations.
(a) r=7 (b) r+4sinθ=0
(c) r=2tanθ
25. Convert the following rectangular equations into polar equations.
(a) x+y=1 (b) y2=2x-x2
(c) The circle centered at (0, −4) with radius 4.
26. (a) Convert 8, -3π4 into rectangular coordinates.
(b) Convert 53, -5 into polar coordinates.
Answers
1. (a) 3 (b) 0
(c) a2-2a (d) a2+2a
(e) x2+2xh+h2-2x-2h (f) 2x+h-2
2. (a) (-∞, ∞) (b) -∞, -3∪(-3, ∞)
(c) [-3, ∞) (d) (-3, ∞)
(e) (-∞, ∞) (f) (0, ∞)
(g) (-∞, ∞)
(h) all real numbers except 2n+1π2 where n is an integer; that is, all real numbers except the odd multiples of π2
(i) all real numbers except nπ where n is an integer; that is, all real numbers except the even multiples of π
(j) [−1, 1] (k) (-∞, ∞)
3. (a) 9x2+6x (b) 16x2-44x+38
4. (a) f-1x=1x3-3 (b) f-1x=3x-3
5.
6. (a) ellipse; x-22+y+124=1; center: (2, −1); vertices: (2, 1), (2, −3); covertices: (1, −1), (3, −1); foci: 2, -1+3, 2, -1-3;
maj. axis: x=2; min. axis: y=-1; e=32
(b) parabola; y+122=12x-52; vertex: 52,-12; axis of symm: y=-12; focus: 218,-12; directrix: x=198
(c) hyperbola; x+224-y-129=1; center: (−2, 1); vertices: (0, 1), (−4, 1); foci: -2+13, 1, -2-13, 1; trans. axis: y=1; conj. axis: x=-2; e=132
7. y+92=-8x-7
8. vertical asymptotes: x=0, x=74; horizontal asymptote: y=0
9. vertical asymptote: x=-2; missing point at x=2
10. y=x-20
11. 12.
13. (a) $25,646.69 (b) $25,647.32
14. 4.11 years
15. (a) 1161.68 feet (b) 13.29 feet
16. secθ=-54; cotθ=-43
17. (a) no asymptotes
(b) vertical asymptotes at x=2n+1π2 where n is an integer
(c) vertical asymptotes at x=nπwhere n is an integer
(d) no asymptotes
(e) horizontal asymptotes: y=-π2, y=π2
18. (a) -π3 (b) 3π4
(c) π4 (d) -π4
(e) 1π (f) π3
19. (a) 7π6+k2π,11π6+k2π, where k is an integer
(b) 7π6+k2π,11π6+k2π,π2+k2π, where k is an integer
(c) 2π9+k2π3,4π9+k2π3, where k is an integer
(d) {kπ, π4+kπ , 3π4+kπ where k is an integer}
20. (a) 3.9731, 5.4516 (b) 1.1372, 5.1459
(c) 1.7619, 4.9036
21. The answer is in working the problems.
22. (a) B ≈ 46.94°, C ≈ 103.06°, a ≈ 8.21 (b) A ≈ 58.54°, B ≈ 78.62°, C ≈ 42.84°
(c) A ≈ 65.8°, a ≈ 13, b ≈ 13 (d) no triangle
(e) B1 ≈ 12.19°, C1 ≈ 145.81°, b1 ≈ 5.636; B2 ≈ 123.81°, C2 ≈ 34.19°, b2 ≈ 22.180
23. ≈ 20.6 square units
24. (a) x2+y2=7 (b) x2+y+22=4
(c) x4+x2y2-4y2=0
25. (a) r=1cosθ+sinθ (b) r=2cosθ
(c) r=-8sinθ
26. (a) -42, -42 (b) 10, -π6, -10,5π6, etc