The simplest and most obvious sequence is given by the formula: X[n]=136 - n*7 This gives X[11]=59.
The simplest rule is Un = 26 - 8n for n = 1, 2, 3, ... but it is always possible to fit a polynomial of degree 5 to the given sequence of numbers along with any sixth number.
There are infinitely many possible answers. The simplest, linear, rule is Un = 4n - 17 for n = 1, 2, 3, ...
244 and 910. The simplest polynomial that fits the given sequence is t(n) = (57n3 - 432n2 + 897n - 322)/2 for n = 1, 2, 3, ... Neither a simple exponential nor power function will fit the sequence.
A finite sequence has a beginning and an end, whereas an infinite sequence has no end.
Habit
State diagram represents behavior without noting the classes involved whereas sequence diagram represents behavior, by describing how classes move from state to state
He didn't, he analyzed its behavior.
The series of terms in the sequence of biological organization from the simplest to the most complex is cell, tissues, organs, systems, and lastly the organism. This is the way living things are organized.
population, community, ecosystem
novenet its taxis TY!! :D
One of the simplest arithmetic arithmetic sequence is the counting numbers: 1, 2, 3, ... . The person who discovered that is prehistoric and, therefore, unknown.
This is a geometric sequence since there is a common ratio between each term. In this case, multiplying the previous term in the sequence by 10.
The simplest and most obvious sequence is given by the formula: X[n]=136 - n*7 This gives X[11]=59.
It is a finite numerical sequence and according to Wittgenstein's Finite Rule Paradox every finite sequence of numbers can be a described in infinitely many ways - some simple, some complicated but all equally valid. The simplest rule here is a cubic rule.
by focusing on the sequence of mental activities that people use in interpreting and integrating their environment.
There are infinitely many possible solutions. Given ANY number to be next in sequence, I can find a polynomial (of order 5) which will do the trick.The simplest polynomial isUn =(5563n4 - 50598n3 + 167717n2 - 229194n + 109080)/24 for n =1, 2, 3, ...and according to it, the next number is the sequence would be 43,842.There are infinitely many possible solutions. Given ANY number to be next in sequence, I can find a polynomial (of order 5) which will do the trick.The simplest polynomial isUn =(5563n4 - 50598n3 + 167717n2 - 229194n + 109080)/24 for n =1, 2, 3, ...and according to it, the next number is the sequence would be 43,842.There are infinitely many possible solutions. Given ANY number to be next in sequence, I can find a polynomial (of order 5) which will do the trick.The simplest polynomial isUn =(5563n4 - 50598n3 + 167717n2 - 229194n + 109080)/24 for n =1, 2, 3, ...and according to it, the next number is the sequence would be 43,842.There are infinitely many possible solutions. Given ANY number to be next in sequence, I can find a polynomial (of order 5) which will do the trick.The simplest polynomial isUn =(5563n4 - 50598n3 + 167717n2 - 229194n + 109080)/24 for n =1, 2, 3, ...and according to it, the next number is the sequence would be 43,842.