Chapter 9 Quest
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Last updated over 1 year ago
13 questions
1
Simplify the expression.
Simplify the expression.
1
Use Pascal's Triangle or the Binomial Theorem to expand (x - 2y)5.
For grading purposes, write your answer as a simplified polynomial expression with x decreasing in power and y increasing in power.
Use Pascal's Triangle or the Binomial Theorem to expand (x - 2y)5.
For grading purposes, write your answer as a simplified polynomial expression with x decreasing in power and y increasing in power.
1
Determine the 4th term in the expansion of (3x + y)11.
Determine the 4th term in the expansion of (3x + y)11.
1
State the first five terms of the sequence defined recursively.
State the first five terms of the sequence defined recursively.
For grading purposes, your answer should be entered as sequence of numbers: a1, a2, a3, a4, a5
1
State the first five terms of the sequence defined explicitly.
For grading purposed, your answer should be entered as sequence of numbers: a1, a2, a3, a4, a5
State the first five terms of the sequence defined explicitly.
For grading purposed, your answer should be entered as sequence of numbers: a1, a2, a3, a4, a5
1
What is the 13th term in the sequence?
What is the 13th term in the sequence?
1
Given:
Given:
Determine the nth term of the arithmetic sequence.
2
Match the limit to the correct value, if it exists.
Match the limit to the correct value, if it exists.
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This value is not a limit for any of these sequences. | arrow_right_alt |
1
Express the series using sigma notation.
Express the series using sigma notation.
Note: Use k as the index variable.
1
Find the sum of the first 50 terms of the sequence:
Find the sum of the first 50 terms of the sequence:
1
Find the sum of the first 8 terms of the series:
Find the sum of the first 8 terms of the series:
2
Match the sum to the correct value, if it exists.
Match the sum to the correct value, if it exists.
| Draggable item | arrow_right_alt | Corresponding Item |
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1
Use the ratio test to determine the ratio of the series, then determine if the series is convergent or divergent.
Use the ratio test to determine the ratio of the series, then determine if the series is convergent or divergent.