If J M = 5 X − 8 JM = 5x - 8 J M = 5 X − 8 And L M = 2 X − 6 LM = 2x - 6 L M = 2 X − 6 , Which Expression Represents J L JL J L ?A. 3 X − 2 3x - 2 3 X − 2 B. 3 X − 14 3x - 14 3 X − 14 C. 7 X − 2 7x - 2 7 X − 2 D. 7 X − 14 7x - 14 7 X − 14

In this article, we will delve into the world of mathematics, specifically algebra, to solve a problem involving the representation of a line segment. We will use the given information to find the expression that represents the length of the line segment JL.

Given Information

We are given two equations:

• $JM = 5x - 8$
• $LM = 2x - 6$

Our goal is to find the expression that represents the length of the line segment JL.

Breaking Down the Problem

To find the expression that represents JL, we need to understand that JL is the sum of JM and LM. This is because the length of JL is the combination of the lengths of JM and LM.

Finding the Expression for JL

To find the expression for JL, we need to add the expressions for JM and LM.

$JM + LM = (5x - 8) + (2x - 6)$

Using the distributive property, we can combine like terms:

$(5x - 8) + (2x - 6) = 5x + 2x - 8 - 6$

Simplifying the expression, we get:

$5x + 2x - 8 - 6 = 7x - 14$

Therefore, the expression that represents JL is $7x - 14$.

Conclusion

In this article, we used algebraic techniques to find the expression that represents the length of the line segment JL. By understanding the given information and breaking down the problem, we were able to find the correct expression.

Answer

The correct answer is:

• D. $7x - 14$

Why This Matters

This problem may seem simple, but it requires a deep understanding of algebraic techniques and the ability to apply them to real-world problems. By mastering these skills, you will be better equipped to tackle complex mathematical problems and succeed in your academic and professional pursuits.

Real-World Applications

This problem has real-world applications in various fields, such as:

• Engineering: Understanding the length of line segments is crucial in engineering, where it is used to design and build structures.
• Physics: The concept of line segments is used to describe the motion of objects in physics.
• Computer Science: Line segments are used in computer graphics and game development to create 3D models and animations.

Final Thoughts

In the previous article, we explored the problem of finding the expression that represents the length of the line segment JL. In this article, we will delve deeper into the problem and provide answers to some of the most frequently asked questions.

Q: What is the problem asking for?

A: The problem is asking for the expression that represents the length of the line segment JL. This means we need to find an algebraic expression that represents the length of JL.

Q: How do we find the expression for JL?

A: To find the expression for JL, we need to add the expressions for JM and LM. This is because the length of JL is the combination of the lengths of JM and LM.

Q: What is the distributive property?

A: The distributive property is a mathematical concept that allows us to expand expressions by multiplying each term inside the parentheses by the term outside the parentheses.

Q: How do we simplify the expression for JL?

A: To simplify the expression for JL, we need to combine like terms. This means we need to add or subtract terms that have the same variable and coefficient.

Q: What is the final expression for JL?

A: The final expression for JL is $7x - 14$.

Q: Why is this problem important?

A: This problem is important because it requires a deep understanding of algebraic techniques and the ability to apply them to real-world problems. By mastering these skills, you will be better equipped to tackle complex mathematical problems and succeed in your academic and professional pursuits.

Q: What are some real-world applications of this problem?

A: Some real-world applications of this problem include:

• Engineering: Understanding the length of line segments is crucial in engineering, where it is used to design and build structures.
• Physics: The concept of line segments is used to describe the motion of objects in physics.
• Computer Science: Line segments are used in computer graphics and game development to create 3D models and animations.

Q: What are some common mistakes to avoid when solving this problem?

A: Some common mistakes to avoid when solving this problem include:

• Failing to distribute the terms correctly
• Failing to combine like terms
• Failing to simplify the expression correctly

Q: How can I practice solving this type of problem?

A: You can practice solving this type of problem by:

• Working through example problems
• Practicing with different variables and coefficients
• Using online resources and practice tests

Conclusion

In this article, we provided answers to some of the most frequently asked questions about the problem of finding the expression that represents the length of the line segment JL. By mastering the skills and concepts presented in this article, you will be better equipped to tackle complex mathematical problems and succeed in your academic and professional pursuits.

Additional Resources

For more information and practice problems, check out the following resources:

• Khan Academy: Algebra
• Mathway: Algebra Solver
• Wolfram Alpha: Algebra Calculator

Final Thoughts

In conclusion, this problem requires a deep understanding of algebraic techniques and the ability to apply them to real-world problems. By mastering these skills, you will be better equipped to tackle complex mathematical problems and succeed in your academic and professional pursuits.