5 Must Know Facts For Your Next Test

1. Multiplying both sides of a linear inequality by a positive constant does not change the direction of the inequality symbol (>, <, ≥, ≤).
2. The multiplication property is useful for simplifying linear inequalities by removing common factors or for scaling the inequality to work with more manageable numbers.
3. Multiplying an inequality by a negative constant will reverse the direction of the inequality symbol (e.g., $x > 5$ becomes $x < -5$).
4. The multiplication property can be applied to both strict inequalities (>, <) and non-strict inequalities (≥, ≤).
5. Understanding the multiplication property is crucial for solving linear inequalities, as it allows you to manipulate the inequality to isolate the variable and find the solution set.

Review Questions

• Explain how the multiplication property can be used to solve a linear inequality, and provide an example.
  • The multiplication property states that if an inequality is multiplied by a positive constant, the inequality symbol is preserved. This means that if you have an inequality like $2x + 3 > 5$, you can multiply both sides by a positive constant, such as 4, to get $8x + 12 > 20$. The relationship between the two sides of the inequality remains the same, and the solution set for the inequality is also preserved. This property is very useful for simplifying linear inequalities and isolating the variable to find the solution set.
• Describe the effect of multiplying a linear inequality by a negative constant, and provide an example.
  • When a linear inequality is multiplied by a negative constant, the direction of the inequality symbol is reversed. For example, if you have the inequality $x > 5$ and multiply both sides by -2, the new inequality becomes $-2x < -10$. The original inequality stated that $x$ was greater than 5, but after multiplying by the negative constant, the new inequality states that $x$ is less than -10. Understanding this property is crucial when solving linear inequalities, as it allows you to manipulate the inequality to isolate the variable and find the correct solution set.
• Analyze the importance of the multiplication property in the context of solving systems of linear inequalities, and explain how it can be used to find the feasible region.
  • The multiplication property is essential when solving systems of linear inequalities, as it allows you to manipulate the individual inequalities to find the feasible region. The feasible region is the area where all the constraints (linear inequalities) overlap, and it represents the set of all possible solutions to the system. By applying the multiplication property to each inequality, you can isolate the variables and graph the individual constraints. The intersection of these graphs represents the feasible region, which contains the solutions that satisfy all the inequalities in the system. Understanding the multiplication property and how it preserves the inequality relationships is crucial for effectively solving and interpreting systems of linear inequalities.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.