A term in math usually refers to a # in a arithmetic/geometric sequence
They are a sequence of numbers and each sequence has a term number.
It is a valid sequence which is fundamental to arithmetic since its partial sums define the counting numbers.
The 8th term is 64. The sequence is the squares of the counting numbers. The nth term is given by t(n) = nÂ².
The counting sequence is making increments of 11,that is, the n-th term will = 11 x nn = 12,t = 12 x 11= 132
after -9 it is -15 then -21, -27 and the ninth is -36
1 3 5 8 20 18 10
The term nth in math means some item in a sequence; n stands for number, so if you have a sequence with a first, second, third, fourth, fifth, sixth (etc) item, you can also talk about the nth item, which is some item at some unspecified location in this sequence.
The Fibonacci sequence can be used to determine the golden ratio. If you divide a term in the sequence by its predecessor, at suitably high values, it approaches the golden ratio.
The term Counting Numbers is generally used to mean the positive integers (i.e. 1, 2, 3...). They are so named because that is how you would count a collection of actual objects.
It is the sequence of first differences. If these are all the same (but not 0), then the original sequence is a linear arithmetic sequence. That is, a sequence whose nth term is of the form t(n) = an + b
In mathematics, a sequence is an enumerated collection of objects in which repetitions are allowed and order matters. Like a set, it contains members (also called elements, or terms ). The number of elements (possibly infinite) is called the length of the sequence. (Thank you math teacher)
That depends what the pattern of the sequence is.
The 90th term of the arithmetic sequence is 461
Good Question! After 6 years of math classes in college, and 30+ years of teaching (during which I took many summer classes) I've never seen an explicit formula for the nth term of the Fibonacci sequence. Study more math and maybe you can discover the explicit formula that you want.
An infinite sequence.
there is no such math term
The math term for multiplication is PRODUCT.
"Subset" IS the math term in this case.
Well, it would depend what the sequence was...? If the sequence was 2,4,6,8,10,12,14,16,18,20, then the 9th term would be 18!
a + 99d where 'a' is the first term of the sequence and 'd' is the common difference.
6n-5 is the nth term of this sequence