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23 questions
A
B
C
D
Evaluate the limit.
3/2
-3/2
-infinity
infinity
Evaluate the limit
-2
-infinity
infinity
1
Evaluate the limit
infinity
3
0
-infinity
State the dominate term, then evaluate the limit
x2; -infinity
ex; -4
ex; -infinity
x2; infinity
State the dominant term then determine the limit.
3x3; -infinity
2x2; 0
3x3; infinity
2x2; -infinity
State the dominant term, then find the limit.
x2; infinity
ln x, infinity
x2; 2
ln x, 0
Determine the value of the limit
4
1
∞
0
Determine the value of the limit
∞
-∞
DNE
0
Determine the value of the limit
∞
-∞
DNE
0
A
B
C
D
A
B
C
D
Which of the following must be true for a function to be continuous at a point, a? (select all that apply)
f(a) must exist
the limit as x approaches a must exist
the function has to go to infinity
f(a) and the limit as x approaches a must be equal
you won't need to do any factoring/simplifying when finding the limit
The horizontal asymptote equals zero when:
the degree of the numerator and denominator are equal
the degree of the numerator is less than the degree of the denominator
the degree of the numerator is greater than the degree of the denominator
the numerator equals zero
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