my nth term maths is very tuff because its syallabus is changed
You don't.
To find the nth term of this sequence, we first need to identify the pattern. The differences between consecutive terms are 5, 9, 13, 17, and so on. These are increasing by 4 each time. This means that the nth term can be calculated using the formula n^2 + 4n + 1. So, the nth term for the sequence 5, 10, 19, 32, 49 is n^2 + 4n + 1.
It means to work out a suitable nth term that is applicable to all terms of a sequence of numbers following a regular pattern.
To find the nth term of this sequence, we first need to determine the pattern or rule governing the sequence. By examining the differences between consecutive terms, we can see that the sequence is increasing by 9, 15, 21, 27, and so on. This indicates that the nth term is given by the formula n^2 + 1.
To find the nth term in this pattern, we first need to identify the pattern itself. The differences between consecutive terms are 7, 9, and 11 respectively. This indicates that the pattern is increasing by 2 each time. Therefore, the nth term can be found using the formula: nth term = 5 + 2(n-1), where n represents the position of the term in the sequence.
It is not possible to find the nth term from the given information.
Say if you had the pattern 15 20 25 30 35 40 45 50 To find the nth term you have to see what the gap between the numbers is. In our case this is 5. Then you have to find out what the difference between the gap and the first number. In this sequence it is 10. So your answer would be..... 5n+10 That's how you find the nth term.
To find the nth term in a sequence, we first need to identify the pattern or formula that describes the sequence. In this case, the sequence appears to be decreasing by 4, then decreasing by 6, and finally decreasing by 10. This suggests a quadratic pattern, where the nth term can be represented as a quadratic function of n. To find the specific nth term for this sequence, we would need more data points or information about the pattern.
my nth term maths is very tuff because its syallabus is changed
To find the nth term in this sequence, we first need to determine the pattern. The differences between consecutive terms are 5, 7, 9, and 11 respectively. These differences are increasing by 2 each time. This indicates that the sequence is following a quadratic pattern. The nth term for this sequence can be found using the formula for the nth term of a quadratic sequence, which is Tn = an^2 + bn + c.
You don't.
To find the nth term of this sequence, we first need to identify the pattern. The differences between consecutive terms are 5, 9, 13, 17, and so on. These are increasing by 4 each time. This means that the nth term can be calculated using the formula n^2 + 4n + 1. So, the nth term for the sequence 5, 10, 19, 32, 49 is n^2 + 4n + 1.
That depends what information you are given. For example, if you are given the formula for the nth term, you can calculate it directly - substituting "n" with the number.
It means to work out a suitable nth term that is applicable to all terms of a sequence of numbers following a regular pattern.
The nth term is Un = a + (n-1)*d where a = U1 is the first term, and d is the common difference.
Oh, what a lovely sequence of numbers you have there! To find the pattern and the nth term, we can see that each number is increasing by adding consecutive even numbers (2, 4, 6, ...). So, the nth term can be found using the formula n^2 + 9. Keep exploring and creating, my friend!