x2-1 < 8
Add 1 to both sides:
x2 < 9
Square root both sides gives x < +3 or x > -3
So: -3 < x < 3
Therefore x has values of -2, -1, 0, 1, 2 on the number line.
The formula is A-squared + B-squared = C-squared where A and B are the sides and C is the hypotenuse. Given the values of A and B as 3 inches and 2 inches we can use the formula: 3-squared (9) + 2-squared (4) = 13. The length of the hypotenuse is the square root of 13 (3.6055512).
5 < x < 9
4 < x < 20
Ah hah! That little word "which" is pretty much a giveaway ... I'll just bet there wassome kind of a list of choices that was supposed to go along with the question, butsomehow got lost.Anyway, the correct inequality is: 3 < x < 13 .
It is possible you are referring to length, width and height (or depth). If you mean the values then there is an infinite number of them
Inequality
N squared. It could be the Cartesian plane restricted to integer values, as required for integer linear programming problems.
Substitute the values of the variables into the inequality. If the inequality is true then they are a solution, if not, they are not.Substitute the values of the variables into the inequality. If the inequality is true then they are a solution, if not, they are not.Substitute the values of the variables into the inequality. If the inequality is true then they are a solution, if not, they are not.Substitute the values of the variables into the inequality. If the inequality is true then they are a solution, if not, they are not.
that would be limited to 3 and -3 for values of x
Ratio or proportion.
is called an inequality
The values of the variables will satisfy the equality (rather than the inequality) form of the constraint - provided you are not dealing with integer programming.
A squared plus b squared equils c squared
A strict inequality.A strict inequality.A strict inequality.A strict inequality.
It can take only a finite number of values. These need not be integer values.
a solution of inequality
The answer is -16.