Integers are a set of numbers including natural numbers (1, 2, 3...) their opposites (-1, -2, -3...) and 0.
an integer plus and integer will always be an integer. We say integers are closed under addition.
If the integer subtracted is smaller than or equal to the first integer, then the answer is positive. Otherwise, if the integer subtracted is larger, then the answer is negative.
It is not an integer, nor can it ever be an integer. It can, however, be rounded to the nearest integer, in which case 0.1 will round to 0 to the nearest integer.
a negative integer
Yes; the square of any integer is also an integer.Yes; the square of any integer is also an integer.Yes; the square of any integer is also an integer.Yes; the square of any integer is also an integer.
A half quantum harmonic oscillator is a quantum system that exhibits properties of both classical harmonic oscillators and quantum mechanics. It has energy levels that are quantized in half-integer values, unlike integer values in regular quantum systems. This leads to unique characteristics such as fractional energy levels and non-integer spin values.
2 is 2, by definition. If you mean "what are it's properties?" it is prime, an integer, a real number and rational.
The product of an even integer with any other integer is an even integer: (2a)*b =2ab = 2(ab) Any integer evenly divisible by 2 is even.
No, it is an integer.
The absoluate value of a positive integer is the integer itself.The absoluate value of a positive integer is the integer itself.The absoluate value of a positive integer is the integer itself.The absoluate value of a positive integer is the integer itself.
Yes, the square of an integer is always an integer.
the square of an integer will always be an integer
The square root of an integer is a CYCLOTOMIC integer.
Yes, always.
1448 is an integer.
an integer plus and integer will always be an integer. We say integers are closed under addition.
It cannot be done. The basic rules of math. odd integer plus odd integer = even integer. odd integer plus even integer = odd integer. Always. odd integer plus odd integer plus odd integer = odd integer. Always.