a sequence in which each term is found by adding the same number
That's an arithmetic sequence.
A sequence of seven numbers is a set of numbers arranged in a specific order. Each number in the sequence is called a term. For example, a sequence of seven numbers could be {1, 3, 5, 7, 9, 11, 13}, where each term differs by a constant value of 2. Sequences can follow different patterns, such as arithmetic sequences where each term is found by adding a constant value to the previous term, or geometric sequences where each term is found by multiplying the previous term by a constant value.
Oh, dude, that's just a simple arithmetic sequence where you add 11 each time. So, like, the next number would be 49 because you just keep adding 11 to the previous number. It's like math, but, you know, more fun... or not.
119. un = (-n4 + 15n3 - 77n2 + 225n + 192)/6
a sequence in which each term is found by adding the same number
That's an arithmetic sequence.
an arithmetic series equation is a*r^(n-1) where a is the starting value, r is the number you are continuously adding, and n is the term you are looking to find
The answer is 44. The sequence is adding nine to each number, assuming that the first number is supposed to be -1.
Oh, dude, that's just a simple arithmetic sequence where you add 11 each time. So, like, the next number would be 49 because you just keep adding 11 to the previous number. It's like math, but, you know, more fun... or not.
13 This is because each term of the sequence is determined by adding the 2 previous terms of the sequence. This particular sequence is called the Fibonacci Sequence, and has special properties. See related link.
A sequence of seven numbers is a set of numbers arranged in a specific order. Each number in the sequence is called a term. For example, a sequence of seven numbers could be {1, 3, 5, 7, 9, 11, 13}, where each term differs by a constant value of 2. Sequences can follow different patterns, such as arithmetic sequences where each term is found by adding a constant value to the previous term, or geometric sequences where each term is found by multiplying the previous term by a constant value.
It is arithmetic because it is going up by adding 2 to each number.
To determine the pattern in the sequence 1247, we can look at the differences between consecutive numbers: 2, 4, 6. This indicates that the differences are increasing by 2 each time. Therefore, to continue the sequence, we would add 8 to the last number, 1247. Thus, the next number in the sequence would be 1255.
79 because each number in the sequence is generated by adding the value of the numerals in the previous number to the previous number, so 7 + 1 = 8 and added to 71 = 79.
44. You're adding 11 then 9 each time !
119. un = (-n4 + 15n3 - 77n2 + 225n + 192)/6