Difference between revisions of "008A Sample Final A, Question 8"
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|Now we have d, and we can use the same formula for <math>A_n</math> to get <math>A_{10}</math> and <math>A_{15}</math>. Using these formulas with the appropriate values will yield | |Now we have d, and we can use the same formula for <math>A_n</math> to get <math>A_{10}</math> and <math>A_{15}</math>. Using these formulas with the appropriate values will yield | ||
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|Since we found <math>A_{15}</math> in the last step, and we found the necessary pieces, we find <math>S_{10}</math> by using the formula <math>S_{10} = \frac{10}{2}(27 + -9) = 5 (-18) = -90</math> | |Since we found <math>A_{15}</math> in the last step, and we found the necessary pieces, we find <math>S_{10}</math> by using the formula <math>S_{10} = \frac{10}{2}(27 + -9) = 5 (-18) = -90</math> | ||
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<math >\begin{array}{rcl} | <math >\begin{array}{rcl} | ||
Revision as of 11:35, 23 May 2015
Question: Given a sequence use formulae to compute and .
| Foundations |
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| 1) Which of the formulas should you use? |
| 2) What is the common ratio or difference? |
| 3) How do you find the values you need to use the formula? |
| Answer: |
| 1) The variables in the formulae give a bit of a hint. The r stands for ratio, and ratios are associated to geometric series. This sequence is arithmetic, so we want the formula that does not involve r. |
| 2) We determine the common difference by taking two adjacent terms in the sequence, say and , and finding their difference |
| 3) Since we have a value for d, we want to use the formula for that involves d. |
Solution:
| Step 1: |
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| The formula for that involves a common difference, d, is the one we want. The other formula involves a common ratio, r. So we have to determine the value of n, , and |
| Step 2: |
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| Now we determine by finding d. To do this we use the formula with n = 2, , and. This yields d = -4. |
| Step 3: |
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| Now we have d, and we can use the same formula for to get and . Using these formulas with the appropriate values will yield |
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| and |
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| Step 4: |
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| Since we found in the last step, and we found the necessary pieces, we find by using the formula |
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| Final Answer: |
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