What does at most mean in math inequalities?
The at most operator is used in inequalities to show the maximum value for a variable. For example, if you give three variables for height, weight, and age, the at most operator would be used to show the maximum height, based on the other two variables. There are many ways that you can use the at most operator in inequalities.
What does at least mean in math inequalities?
The at least operator is the opposite of the at most operator. It indicates that the number of possible values is greater than or equal to the number of values you stated previously. For example, if you say something is blue, the answer to the question “Is it blue or is it green?” would be either yes or no.
What does mean in math inequalities?
The meaning of at most in an inequality is the most you can get. If you take two numbers and subtract one from the other, you can express the result of that subtraction as the total of all the positive values in the original numbers, the number you get when you add all the negative values, or the sum of their absolute values. In the example we just looked at, the total of all the positive numbers is the sum of the two numbers, so the at most means the total sum
What does it mean at least in math inequalities?
This question is similar to the one above, in that it is asking about the absolute value of the numbers in the inequality. However, this time you want to know what the smallest possible value of the function is. If the first number is greater than the second number, the answer will be at least. On the other hand, if the first is less than the second, the answer will be at most. This question may seem redundant at first glance, but it can still lead to some interesting results
What does always mean in math inequalities?
Always means that the stated property is true for every possible value of the unknown variable. For example, if we say that a number is always greater than 10, we mean that the number is greater than 10 for every possible value of the unknown variable. If the lower bound is always greater than 10, then the upper bound must be less than or equal to 10. If the upper bound is always greater than 10, then the lower bound must be less than or equal to 10. If the lower bound