Today, we're going to discuss linear inequalities. Can anyone tell me how they differ from equations?

Exactly! Inequalities use symbols like < or > instead of =. For example, instead of saying x = 3, we can say x < 5. This means x can be any value less than 5. To remember this, think of the 'inequality' as a 'range of possibilities.'

Great question! ≤ means 'less than or equal to', while ≥ means 'greater than or equal to'. So if we say x ≤ 3, x could be 3 or any number less than 3.

Let's summarize: Linear inequalities express ranges rather than exact values. Remember: < means less than, > means greater than, ≤ means less than or equal to, and ≥ means greater than or equal to.

Now let's solve some linear inequalities in one variable. For example, how would we solve 2x - 3 < 5?

Correct! What do we get after that?

Yes! Now, how do we isolate x?

Excellent! Always remember, when you multiply or divide by a negative number, you must reverse the inequality. Let's summarize the key point: add or subtract first, then divide or multiply, and watch out for negatives!

Graphing is a powerful way to illustrate solutions of inequalities. If we have the inequality x < 4, how should we graph this?

Exactly! And which direction do we shade?

Perfect! Now this visual representation is important, and you can use an open circle for < and > and a closed circle for ≤ and ≥. Let's recap: open circle for exclusive points and closed circle for included points. What did we learn?

Next, let's discuss systems of linear inequalities. If we have two inequalities, like x + y ≤ 6 and x ≥ 2, where do we graph this?

That's right! First, graph the boundary line from x + y = 6, using a solid line. Then for x ≥ 2, draw a solid vertical line at x = 2.

Exactly! This overlapping area represents the solution to the system. So, we shade where both inequalities' solutions intersect. Key takeaway: always look for that overlap!