what is the rule in adding rational numbers
The rule in this case is that there are no numbers in any position.
This is a set of three numbers. It is NOT an equation. There is nothing missing from a non-existent equation.
It is 0.32 that is missing in the given sequence of numbers
There are infinitely many polynomials of order 5 that will give these as the first two and fifth numbers and any one of these polynomials could be "the" rule. Each rule will generate a different set of answers for the missing numbers. Short of reading the mind of the person who posed the question, there is no way of determining which of the infinitely many solutions is the "correct" answer.The simplest solution is based on a quadratic polynomial (order 2):U(n) = -1.75*n^2 - 0.75*n + 147.5 for n = 1, 2, 3, ...Accordingly, the three missing numbers are:129.5, 116.5 and 80.
According to Wittgenstein's Finite Rule Paradox every finite set of numbers can be a described in infinitely many ways and so gaps in the sequence can be filled in any of these ways - some simple, some complicated but all equally valid.
38 49 60 71 82 93.The rule is adding 11 to the previous element.
using mental math to find the missing numbers. make 8 12345 _ _ _ _ 4 what are the missing numbers Make 6 0 _ _ _ 6 _ _ _ what are the missing numbers
what is the rule in adding rational numbers
Given only one number it is impossible to identify three missing numbers.
The rule in this case is that there are no numbers in any position.
All of them are missing - since there are none to be seen!
The missing number is 5. They're the first five prime numbers.
This is a set of three numbers. It is NOT an equation. There is nothing missing from a non-existent equation.
The average of a set of numbers is defined as the sum of those numbers divided by the number of numbers. If the average is given, multiply that by number of items in the set including the missing number. Subtract the sum of given numbers from this quotient and the missing number is revealed.
punishment
It is 0.32 that is missing in the given sequence of numbers