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Q: The first term is 4 and the common difference is 3. the fifth term of this sequence is?

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a + 99d where 'a' is the first term of the sequence and 'd' is the common difference.

35 minus 4 differences, ie 4 x 6 so first term is 11 and progression runs 11,17,23,29,35...

It is a + 8d where a is the first term and d is the common difference.

6

16

You subtract any two adjacent numbers in the sequence. For example, in the sequence (1, 4, 7, 10, ...), you can subtract 4 - 1, or 7 - 4, or 10 - 7; in any case you will get 3, which is the common difference.

What is the 14th term in the arithmetic sequence in which the first is 100 and the common difference is -4? a14= a + 13d = 100 + 13(-4) = 48

From any term after the first, subtract the preceding term.

It is a*r^4 where a is the first term and r is the common ratio (the ratio between a term and the one before it).

The common difference is 6; each number after the first equals the previous number minus 6.

chronological mean like first to fifth or in order , and sequence means a pattern

6

29

-8

6

The phrase "first difference" is usually associated with a sequence of numbers: a(1), a(2), a(3), a(4), ... . The sequence may have a simple rule for generating the numbers , a complicated rule or, if it is a random sequence, no rule at all.The sequence of first differences is a(2)-a(1), a(3)-a(2), a(4)-a(3), ...

If the first term is 12 and the seventh term is 36, then we have gone up 36-12 in the space of 6 term changes. This is 24 per 6 changes, which can be written as the division 24/6. This works out as 4. Thus the common difference in the sequence is 4.

A quadratic sequence is when the difference between two terms changes each step. To find the formula for a quadratic sequence, one must first find the difference between the consecutive terms. Then a second difference must be found by finding the difference between the first consecutive differences.

The main difference between first generation and fifth generation computers is upgrades. Typically, first generation is more of a beta system and fifth has had many upgrades added to it to make it run faster and has a better performance.

The sum of the first 12 terms of an arithmetic sequence is: sum = (n/2)(2a + (n - 1)d) = (12/2)(2a + (12 - 1)d) = 6(2a + 11d) = 12a + 66d where a is the first term and d is the common difference.

A single number, such as 11111, cannot define an arithmetic sequence. On the other hand, it can be the first element of any kind of sequence. On the other hand, if the question was about ``1, 1, 1, 1, 1'' then that is an arithmetic sequence as there is a common difference of 0 between each term.

It is an ordered set of numbers in which the difference between any member of the sequence (except the first) and its predecessor is a constant.

a + (n-1)d = last number where a is the first number d is the common difference.

Since there are no graphs following, the answer is none of them.

100 + 13(-4) = 100 - 56 = 48