It is an arithmetic sequence if you can establish that the difference between any term in the sequence and the one before it has a constant value.
The nth term of an arithmetic sequence = a + [(n - 1) X d]
An arithmetic sequence
Arithmetic Sequence
Arithmetic- the number increases by 10 every term.
The 90th term of the arithmetic sequence is 461
It is an arithmetic sequence if you can establish that the difference between any term in the sequence and the one before it has a constant value.
The question cannot be answered because two terms are not enough to determine whether the sequence is arithmetic or geometric (or something else).
The nth term of an arithmetic sequence = a + [(n - 1) X d]
An arithmetic sequence
The 9th term of the Fibonacci Sequence is 34Fibonacci Sequence up to the 15th term:1123581321345589144233377610
Arithmetic Sequence
Arithmetic- the number increases by 10 every term.
The one number, 491419 does not constitute a sequence!
One number, such as 7101316 does not define a sequence.
-34 would be the 15th term.
It is a + 8d where a is the first term and d is the common difference.