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Example Questions
Example Question #1 : How To Find The Next Term In An Arithmetic Sequence
Each term in the sequence is one less than twice the previous term.
So,
Example Question #2 : How To Find The Next Term In An Arithmetic Sequence
What is the next number in the following series: 0, 3, 8, 15, 24 . . . ?
35
40
32
41
37
35
The series is defined by n2 – 1 starting at n = 1. The sixth number in the series then equal to 62 – 1 = 35.
Example Question #3 : How To Find The Next Term In An Arithmetic Sequence
A sequence of numbers is as follows:
What is the sum of the first seven numbers in the sequence?
719
490
1529
621
248
621
The pattern of the sequence is (x+1) * 2.
We have the first 5 terms, so we need terms 6 and 7:
(78+1) * 2 = 158
(158+1) * 2 = 318
3 + 8 + 18 +38 + 78 + 158 + 318 = 621
Example Question #1 : How To Find The Next Term In An Arithmetic Sequence
Find the next term of the following sequence:
More information is needed
The sequence provided is arithmetic. An arithmetic sequence has a common difference between each consecutive term. In this case, the difference is ; therefore, the next term is .
You can also use a formula to find the next term of an arithmetic sequence:
where the current term and the common difference.
Example Question #5 : How To Find The Next Term In An Arithmetic Sequence
Solve each problem and decide which is the best of the choices given.
Find the sixth term in the following arithmetic sequence.
First find the common difference of the sequence,
Thus there is a common difference of
between each term,
so follow that pattern for another terms, and the result is .
Example Question #6 : How To Find The Next Term In An Arithmetic Sequence
Find the missing number in the sequence:
The pattern of this sequence is where represents the position of the number in the sequence.
for the first number in the sequence.
for the second number.
For the fourth term, . Therefore, .
Example Question #4 : How To Find The Next Term In An Arithmetic Sequence
An arithmetic sequence begins as follows:
Express the next term of the sequence in simplest radical form.
Using the Product of Radicals principle, we can simplify the first two terms of the sequence as follows:
The common difference of an arithmetic sequence can be found by subtracting the first term from the second:
Add this to the second term to obtain the desired third term:
.
Example Question #5 : How To Find The Next Term In An Arithmetic Sequence
An arithmetic sequence begins as follows:
Give the next term of the sequence in simplest radical form.
None of the other choices gives the correct response.
None of the other choices gives the correct response.
Since no perfect square integer greater than 1 divides evenly into 5 or 10, both of the first two terms of the sequence are in simplest form.
The common difference of an arithmetic sequence can be found by subtracting the first term from the second:
Setting :
Add this to the second term to obtain the desired third term:
This is not among the given choices.
Example Question #4 : How To Find The Next Term In An Arithmetic Sequence
An arithmetic sequence begins as follows:
Give the sixth term of the sequence in decimal form.
The common difference of an arithmetic sequence can be found by subtracting the first term from the second:
Setting :
The th term of an arithmetic sequence can be derived using the formula
Setting :
The decimal equivalent of this can be found by dividing 13 by 15 as follows:
The correct choice is .
Example Question #1 : How To Find The Next Term In An Arithmetic Sequence
An arithmetic sequence begins as follows:
Give the sixth term of the sequence.
The common difference of an arithmetic sequence can be found by subtracting the first term from the second:
Setting :
The th term of an arithmetic sequence can be derived using the formula
Setting