\(x \le 2\)


We follow the following roadmap:

• Get started with the corresponding equation \[-3x -3 = 3x -15\]
• Solve this equation:
  
  • Get the terms with \(x\) on the left-hand side of the equation (by adding \(-3x\) on both sides):
    \(-3x -3 - 3x = 3x -15 - 3x\), which simplifies to \(-6x -3 = -15\).
  • Then move the terms without \(x\) to the right (by adding \(3\) both sides):
    \(-6x -3 +3 = -15 +3\), which simplifies to \(-6x = -12\).
    
    • Next, divide the left- and right-hand side by the coefficient of \(x\) (which is here \(-6\)); this gives \(x = \;\frac{-12}{-6}\).
  • So, the solution of the equation is \(x = {2}\).

• Find out whether the solutions are on the number line to the left or to the right of \(2\).
  • First calculate the left- and right-hand sides of the inequality \(-3x -3 \ge 3x -15\) when you substitute a value of \(x\) less than or equal to \(2\). For example, when you fill in \(x=-10\), then you get \(27 \ge -45\) and this is a true statement. Any other value of \(x\) less than or equal to \(2\) may be used too, and you still get a true statement.
  • Then calculate the left- and right-hand sides of the inequality \(-3x -3 \ge 3x -15\) when you substitute a value of \(x\) greater than or equal to \(2\). For example, when you fill in \(x=10\), then you get \(-33 \ge 15\) and this is a false statement. Any other value of \(x\) greater than or equal to \(2\) may be used too, and you still get a false statement.
  • From these two numeric examples follows that solutions \(x\) of \(-3x -3 \ge 3x -15\) must satisfy \(x \le 2\).
    The points where the inequality holds are shown in green in the number line below. An open circle around \(x=2\) indicates that we are dealing with an inequality of the type \(\lt\) or \(\gt\), where in this case the point itself is not a solution. A closed circle indicates an inequality of the type \(\le\) or \(\ge\), and then the point marked on the number line is element of the solution set.