Since the smallest integer is 2, the largest one let be x. At least 12 means equal to 12 or larger than 12. So we have this inequality:
x - 2 ≥ 12
x - 2 + 2 ≥ 12 + 2
x ≥ 14
Yes, by definition, the sum of two integers is always an integer. Likewise, the product and difference of two integers is always an integer.
4 is the only integer between them.
* The quotient of two positive integers or two negative integers is positive. * The quotient of a positive integer and a negetive integer is negetive.
not necessarily... An integer is a rational number, but so is any real number between consecutive integers.
The difference between any numbers is always positive.
The difference between integers and floats is that integer numbers don't contain decimals.
Yes, the difference between two integers is always a whole number.
It is two times the magnitude of the integer.
x > 16
Yes, by definition, the sum of two integers is always an integer. Likewise, the product and difference of two integers is always an integer.
A non-negative integer is a whole number above 0, and a negative integer is a whole number below 0.
The difference depends on the integers. If the first integer is greater than the second then difference is positive. If the first integer is less than the second then difference is negative. For example 6-4 = +2; 4-6 = -2
When expressed as a ratio of two integers (not intergers!), the simplest form for the integer but not others, has 1 as the denominator.
To find the distance between two integers using the difference, you simply subtract the smaller integer from the larger integer. The result will be the distance between the two integers on the number line. For example, if you have integers 7 and 3, you would subtract 3 from 7 to get a distance of 4. This method works because the difference between two integers gives you the number of units separating them on the number line.
natural numbers can not be negative. integers can be both positive and negative.
"Consecutive" integers are integers that have no other integer between them.
To add two integers with unlike signs: -- Find the difference between their sizes, ignoring their signs. -- Give the difference the sign of the integer with the larger size.