3x<15?
The solution of an inequality is USUALLY a range of numbers. Here are some examples that include the number 13:x >= 13x > 0x < 100
Substitute the number in place of 'x' in the inequality, and see whether the statement you have then is true.
Any number that's two or less.
I don't see any numbers below.One method to solve this is to replace each of the numbers in the inequality, do the calculations, and then check whether the inequality is satisfied. Another method is to get the general solution for the inequality, then check with each of the numbers.
A number is called a "solution" for an inequality if, when you plug that number into the variable, the inequality becomes true. For example, 4 is a solution to the inequality "x + 5 < 10", because when you plug in 4 for x, you get "4 + 5 < 10", which is true. (4 plus 5 is 9, which is less than 10.) On the other hand, 6 is not a solution to the inequality "x + 5 < 10", because when you plug in 6 for x, you get "6 + 5 < 10", which is false. (6 plus 5 is 11, which isn't less than 10.)
If I understand the question correctly, it is when the algebraic equation (or inequality) is true.
The solution of an inequality is USUALLY a range of numbers. Here are some examples that include the number 13:x >= 13x > 0x < 100
b2.1 is an expression, not an inequality.
any number that makes the inequality true
An algebraic equation or inequality can have a solution, an algebraic expression cannot. If substituting a number in place of a variable results in the equation or inequality being a true statement, then that number is a solution of the equation or inequality.
An inequality usually represents more than one number - usually infinitely many. For example, x > 3. A single number can be the solution to a set of inequalities, for example: x >= 15 AND x
The answer, which may not even exist, depends on the inequality. There is, for example, no greatest solution for x > 5.
Substitute the number in place of the variable, and see whether the inequality is then a true statement.
yes
solution set
Substitute the number in place of 'x' in the inequality, and see whether the statement you have then is true.
4.4