It is an equation used to anwer an absolute value inequality.
Can you provide me with an inequality problem that the value is the same?
42
Inequality
If the absolute value inequality is of the form where the absolute value of the difference between a variable (X) and some constant (a) is compared to another constant (b) eg |X - a| compared with b, then if the comparison is < or ≤, the compound inequality is a double inequality of the form c < X < d (or ≤), and if the comparison is > or ≥, the compound inequality is a disjoint inequality of the form X < c or X > d (or including the equals). In both cases, c = b - a, d = b + a (>c)
It is an equation used to anwer an absolute value inequality.
Can you provide me with an inequality problem that the value is the same?
a solution of inequality
42
When you divide both sides by a negative value
o9
Inequality
If the absolute value inequality is of the form where the absolute value of the difference between a variable (X) and some constant (a) is compared to another constant (b) eg |X - a| compared with b, then if the comparison is < or ≤, the compound inequality is a double inequality of the form c < X < d (or ≤), and if the comparison is > or ≥, the compound inequality is a disjoint inequality of the form X < c or X > d (or including the equals). In both cases, c = b - a, d = b + a (>c)
An inequality is a comparison of two values.In the simplest terms it means something does not have the same value as something else.An inequality is a comparison of two values.In the simplest terms it means something does not have the same value as something else.An inequality is a comparison of two values.In the simplest terms it means something does not have the same value as something else.An inequality is a comparison of two values.In the simplest terms it means something does not have the same value as something else.
Since it is an inequality, there is no way to solve for x. It equals all real numbers.
When the value indicated by the circle is a valid value for the inequality.
Yes, but only when the inequality is not a strict inequality: thatis to say it is a "less than or equal to" or "more than or equal to" inequality. In such cases, the solution to the "or equal to" aspect will satisfy the corresponding inequality.