The sum of two odd numbers is always even.
Because the sum of two odd numbers is always even and the sum of that even number plus another odd number is always odd.
The sum of the first 57 natural numbers is 1,625.
The sum of two even numbers is always an even number.
Yes.Since 1 is a member of the Fibonacci sequence, it is always possible. Any natural number, N, can be represented as a sum of a string of N ones.Yes.Since 1 is a member of the Fibonacci sequence, it is always possible. Any natural number, N, can be represented as a sum of a string of N ones.Yes.Since 1 is a member of the Fibonacci sequence, it is always possible. Any natural number, N, can be represented as a sum of a string of N ones.Yes.Since 1 is a member of the Fibonacci sequence, it is always possible. Any natural number, N, can be represented as a sum of a string of N ones.
Yes.natural numbers are closed under multiplication.It means when the operation is done with natural numbers in multiplication the sum of two numbers is always the natural number.
The sum of two odd numbers is always even.
Two odd numbers always sum to an even number. Always. Two even numbers always sum to an even number, and an odd number and an even number always sum to an odd number.
The sum of the first 100 natural numbers is 5,001.
Because the sum of two odd numbers is always even and the sum of that even number plus another odd number is always odd.
Yes. You know this is true because you learned a process-- an "algorithm"--for adding two numbers together, and if you start with two whole numbers, the result is also a whole number.
The sum of the first 57 natural numbers is 1,625.
The sum of two positive numbers is always a positive number.
The sum of two even numbers is always an even number.
The sum of two odd numbers is always an even number
The sum of two even numbers is always an even number.
The sum of any two prime numbers is not always a composite number. The sum of 2 and 11 is 13, and 13 is a prime number, not a composite number.