A pattern that not only continue the pattern but find the value for the given term in the pattern.
An explicit pattern is a pattern that start at one number but it doesn't increase by it.
The answer depends on what the explicit rule is!
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.
An explicit rule is a rule that you can solve without needing the previous term. For example to find the value of y, you don't need to know what x is. y = 4 + 4 vs. y = 2x + 4
well my rule is nothing explicit
Each number is -4 times the previous one. That means that you can write a recursive rule as: f(1) = -3 f(n) = -4 * f(n-1) The explicit rule involves powers of -4; you can write it as: f(n) = -3 * (-4)^(n-1)
Each number is -4 times the previous one. That means that you can write a recursive rule as: f(1) = -3 f(n) = -4 * f(n-1) The explicit rule involves powers of -4; you can write it as: f(n) = -3 * (-4)^(n-1)
explain how to find the rule in a numerical pattern
An exception does not obey a rule or pattern. Often, the only way to identify an exception is to know the rule or pattern that should be expected.
In linear algebra, Cramer's rule is an explicit formula for the solution of a system of linear equations with as many equations as unknowns, valid whenever the system has a unique solution.
it is a rule fully and clearly expressed or demonstrated, nothing is implied. Everything is shown or described in realistic detail
Multiply each term by -3 and so the next term will be 243