U1 = 27
U{n+1} = U{n} - 3
An arithmetic sequence is a list of numbers which follow a rule. A series is the sum of a sequence of numbers.
An explicit rule defines the terms of a sequence in terms of some independent parameter. A recursive rule defines them in relation to values of the variable at some earlier stage(s) in the sequence.
No. Grapes have nothing to do with a recursive series of numbers following the rule that any number is the sum of the previous two.
The answer depends on what the explicit rule is!
It appears that a number of -79 is missing in the sequence and so if you meant -58 -65 -72 -79 -86 then the nth term is -7n-51 which makes 6th term in the sequence -93
The sequence 3, 7, 11, 15 is an arithmetic sequence where each term increases by 4. The recursive rule can be expressed as ( a_n = a_{n-1} + 4 ) with ( a_1 = 3 ). The explicit rule for the nth term is ( a_n = 3 + 4(n - 1) ) or simplified, ( a_n = 4n - 1 ).
An arithmetic sequence is a list of numbers which follow a rule. A series is the sum of a sequence of numbers.
An explicit rule defines the terms of a sequence in terms of some independent parameter. A recursive rule defines them in relation to values of the variable at some earlier stage(s) in the sequence.
No. Grapes have nothing to do with a recursive series of numbers following the rule that any number is the sum of the previous two.
The nth term of an arithmetic sequence = a + [(n - 1) X d]
The answer depends on what the explicit rule is!
It is a sequence of numbers. That is all. The sequence could be arithmetic, geometric, harmonic, exponential or be defined by a rule that does not fit into any of these categories. It could even be random.
An arithmetic sequence is a group or sequence of numbers where, except for the first number, each of the subsequent number is determined by the same rule or set of rules. * * * * * The above answer is incorrect. The rule can only be additive: it cannot be multiplicative or anything else.
x1=0 x2=1 for i > 2, xi= xi-1 + xi-2
It appears that a number of -79 is missing in the sequence and so if you meant -58 -65 -72 -79 -86 then the nth term is -7n-51 which makes 6th term in the sequence -93
Mathematical patterns are lists number that follows a certain rule and have different types. Some of these are: Arithmetic sequence, Fibonacci sequence and Geometric sequence.
A recursive rule is one which can be applied over and over again to its own output