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Limits & Continuity of Trigonometric Functions
SUGGESTEDREFERENCEMATERIAL:
As you work through the problems listed below, you should reference Chapter 1.6 of the rec-
ommendedtextbook(ortheequivalent chapter in your alternative textbook/online resource)
and your lecture notes.
EXPECTEDSKILLS:
• Know where the trigonometric and inverse trigonometric functions are continuous.
• Be able to use lim sinx = 1 or lim 1−cosx = 0 to help find the limits of functions
x→0 x x→0 x
involving trigonometric expressions, when appropriate.
• Understand the squeeze theorem and be able to use it to compute certain limits.
PRACTICEPROBLEMS:
Evaluate the following limits. If a limit does not exist, write DNE, +∞, or −∞
(whichever is most appropriate).
1. lim sin(2x)
x→π
4
1
2. lim (θcosθ)
θ→π
−π
3. lim cscx
+
x→0
+∞
4. lim tanx
x→π+
2
−∞
5. lim tanx
x→π−
2
+∞
6. lim secx
x→π
4
√
2
1
7. limsinx
x→0 3x
1
3
8. limsin3x
x→0 3x
1
9. limsinx
x→0 |x|
DNE
10. lim1−cosx
x→0 4x
0
11. lim cosx
−
x→0 x
−∞
12. limsin2x
x→0 x
2
13. limtan2x
x→0 x
2
14. lim1−3cosx
x→0 3x
DNE
15. lim arccos −x2
x→∞ x2 +3x
π
16. lim 3x2 2
x→0 1−cos x
3; Video Solution http://www.youtube.com/watch?v=-heD5XuKO-g
2
17. limtan5x
x→0 sin9x
5
9
2
18. Multiple Choice: Evaluate lim tan x
x→0 x2
(a) −1
(b) 0
(c) 1
(d) −∞
(e) +∞
c
For problems 19-23, evaluate the following limits by first making an appropriate
substition. If the limit does not exist, write DNE, +∞, or −∞ (whichever is
most appropriate).
19. lim �exsin(e−x)
x→∞
1; http://www.youtube.com/watch?v=BB5sQwo jIs
20. limsin(lnx5)
x→1 lnx
5
21. lim esecx
x→π+
2
0
22. limsin 1
x→0 2
x
DNE
−1
23. lim tan (lnx)
+
x→0
−π
2
3
For problem 24-28, determine the value(s) of x where the given function is con-
tinuous.
24. f(x) = cscx
f(x) is continuous for all x 6= πk, where k is any integer.
25. f(x) = esinx
f(x) is always continuous.
26. f(x) = 1 on [0,2π]
1−2cosx
f(x) is continuous for all x in [0,2π] except for x = π and x = 5π
3 3
27. f(x) = sin−1x
f(x) is continuous on its domain of [−1,1]
π
cosx if x<
28. f(x) = 4
π
sinx if x≥ 4
f(x) is always continuous.
3sin(kx)
29. Find all non-zero value(s) of k so that f(x) = x if x>0 is continuous
at x = 0. 6k2+5x if x≤0
k = 1; Video Solution: http://www.youtube.com/watch?v=-Qso-2XBRZA
2
30. Use the Intermediate Value Theorem to prove that there is at least one solution to
cosx = x2 in (0,1).
2
Let f(x) = cos(x) − x . Since f(x) is continuous on (−∞,∞), it is also continuous
on [0,1]. Notice that f(0) = 1 > 0 and f(1) = cos(1)−1 < 0. Thus, the Intermediate
Value Theorem states that there must be some c in (0,1) such that f(c) = 0. i.e., there
2 2
must be at least one c in (0,1) such that cos(c) − c = 0 =⇒ cos(c) = c , as desired.
31. Let f(x) be a function which satisfies 5x − 6 ≤ f(x) ≤ x2 + 3x − 5 for all x ≥ 0.
Compute limf(x).
x→1
−1
4
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