4x + 12 < 60
4n + 12 < 60
4(x + 12) ≤ 16
If I understand the question correctly, it is when the algebraic equation (or inequality) is true.
As an algebraic expression this is written 2x - 12, where x is the unknown number.
The algebraic expression for 11 minus the product of 5 and a number can be written as 11 - 5x, where 'x' represents the unknown number.
9t
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.
4(x + 12) ≤ 16
If I understand the question correctly, it is when the algebraic equation (or inequality) is true.
the product of 23 and a number
16n
10n
As an algebraic expression this is written 2x - 12, where x is the unknown number.
The algebraic expression for 11 minus the product of 5 and a number can be written as 11 - 5x, where 'x' represents the unknown number.
7E
2b=c
2<x-9
* n=15