MAT 302 Assignment Problem 9.6 | Borough of Manhattan Community College
- Borough of Manhattan Community College / MAT 302
- 19 Jun 2021
- Price: $15
- Mathematics Assignment Help / Calculus
MAT 302 Assignment Problem 9.6 | Borough of Manhattan Community College
9.6 The Ratio and Root Test
Question 1
(1 point) What can
you say about the series ∑an∑an in each of the following cases using
the Ratio Test? Answer "Convergent," "Divergent," or
"Inconclusive."
Question 2
(1 point) Use the
ratio test to determine whether
converges or
diverges.
(a) Find the ratio of successive terms. Write
your answer as a fully simplified fraction. For n≥7n≥7,
(b)Evaluate the
limit in the previous part. Enter ∞∞ as infinity and −∞−∞ as -infinity. If the
limit does not exist, enter DNE.
(b) By the ratio test, does the series converge,
diverge, or is the test inconclusive?
Question 3
(1 point) Use the ratio test to determine
whether
converges or diverges.
(a) Find the ratio of successive terms. Write
your answer as a fully simplified fraction. For n≥3n≥3,
(b) Evaluate the limit in the previous part.
Enter ∞∞ as infinity and −∞−∞ as -infinity. If the
limit does not exist, enter DNE.
(c) By the ratio test, does the series converge,
diverge, or is the test inconclusive?
Question 4
(1 point) Use the ratio test to determine
whether
converges or diverges.
(a) Find the ratio of successive terms. Write
your answer as a fully simplified fraction. For n≥7n≥7,
(b) Evaluate the limit in the previous part.
Enter ∞∞ as infinity and −∞−∞ as -infinity. If the limit
does not exist, enter DNE.
(c) By the ratio test, does the series converge,
diverge, or is the test inconclusive?
Note: You can earn 40% partial credit for 2 - 3 correct answers.
Question 5
(1 point) Consider the series
Evaluate the the following limit. If it is
infinite, type "infinity" or "inf". If it does not exist,
type
What can you say about the series using the
Ratio Test? Answer "Convergent", "Divergent", or
"Inconclusive".
Question 6
(1 point) Consider the series
Evaluate the the
following limit. If it is infinite, type "infinity" or
"inf". If it does not exist, type "DNE".
What can you say
about the series using the Ratio Test? Answer "Convergent",
"Divergent", or "Inconclusive".
Determine whether
the series is absolutely convergent, conditionally
convergent, or divergent. Answer "Absolutely
Convergent", "Conditionally Convergent", or
"Divergent".
Note: In order to get credit for this problem all
answers must be correct.
Question 7
(1 point) Consider the series 
Evaluate the the following limit. If it is
infinite, type "infinity" or "inf". If it does not
exist,
type "DNE".
What can you say about the series using the
Ratio Test? Answer "Convergent", "Divergent", or
"Inconclusive".
Determine whether the series is absolutely
convergent, conditionally convergent, or divergent. Answer
"Absolutely Convergent", "Conditionally Convergent", or
"Divergent".
Note: In order to get credit for this problem all answers must be
correct.
Question 8
Use the Root Test to determine the
convergence or divergence of the given series or state that the Root Test is
inconclusive.
Question 9
(1 point) Consider the series
Evaluate the the following limit. If it is
infinite, type "infinity" or "inf". If it does not exist,
type "DNE".
What can you say about the series using the
Ratio Test? Answer "Convergent", "Divergent", or
"Inconclusive".
Determine whether the series is absolutely
convergent, conditionally convergent, or divergent. Answer
"Absolutely Convergent", "Conditionally Convergent", or
"Divergent".
Question 10
(1 point) Consider the series
Evaluate the the following limit. If
it is infinite, type "infinity" or "inf". If it does not
exist, type
What can you say about the series using the
Ratio Test? Answer "Convergent", "Divergent", or
"Inconclusive".
Question 11
(1 point) Consider the series
Evaluate the the following limit. If it is
infinite, type "infinity" or "inf". If it does not exist,
type "DNE".
What can you say about the series using the
Root Test? Answer "Convergent", "Divergent", or
"Inconclusive".
Question 12
Apply the Ratio Test to determine
convergence or divergence, or state that the Ratio Test is inconclusive.
Question 13
Use the Root Test to determine the
convergence or divergence of the given series or state that the Root Test is
inconclusive.
Question 14
(1 point) Use the Root Test to determine the
convergence or divergence of the series.
Enter CON for converge, DIV for
diverge, and INC for
inconclusive.
Question 15
(1 point) Consider the series
Evaluate
the the following limit. If it is infinite, type "infinity" or
"inf". If it does not exist, type "DNE".
What can you say about the series using the
Root Test? Answer "Convergent", "Divergent", or
"Inconclusive".
Determine whether the series is absolutely
convergent, conditionally convergent, or divergent. Answer
"Absolutely Convergent", "Conditionally Convergent", or
"Divergent".
Question 16
Use the Root Test to determine the
convergence or divergence of the given series or state that the Root Test is
inconclusive.
Question 17
Apply the Ratio Test to determine
convergence or divergence, or state that the Ratio Test is inconclusive.
Question 18
(1 point) Use the Root Test to determine the
convergence or divergence of the series.
Enter CON for converge, DIV for
diverge, and INC for
inconclusive.
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