Yes, that's what a geometric sequence is about.
a sequence of shifted geometric numbers
antonette taño invented geometric sequence since 1990's
A geometric sequence is : a•r^n while a quadratic sequence is a• n^2 + b•n + c So the answer is no, unless we are talking about an infinite sequence of zeros which strictly speaking is both a geometric and a quadratic sequence.
A descending geometric sequence is a sequence in which the ratio between successive terms is a positive constant which is less than 1.
It is called arithmetico-geometric sequence. I have added a link with some nice information about them.
The sequence 216 12 23 is neither arithmetic nor geometric.
The sequence is neither arithmetic nor geometric.
It is a geometric sequence.
A single number does not constitute a sequence.
A static sequence: for example a geometric sequence with common ratio = 1.
An example of an infinite geometric sequence is 3, 5, 7, 9, ..., the three dots represent that the number goes on forever.
There can be no solution to geometric sequences and series: only to specific questions about them.
No it is not.
It is an arithmetic sequence (with constant difference 0), or a geometric sequence (with constant ratio 1).
It is neither. It is a quadratic sequence. Un = (x2 - x + 4)/2 for n = 1, 2, 3, ...
an arithmetic sequeunce does not have the sum to infinty, and a geometric sequence has.
4, -1236, -108 is not a geometric system.
In an arithmetic sequence the same number (positive or negative) is added to each term to get to the next term.In a geometric sequence the same number (positive or negative) is multiplied into each term to get to the next term.A geometric sequence uses multiplicative and divisive formulas while an arithmetic uses additive and subtractive formulas.