Simplifying Expressions: 6p + 7q + 5q + 10

Hey guys! Let’s dive into the simplified form of the expression 6p + 7q + 5q + 10 . Simplifying expressions is a fundamental skill in algebra, and it’s super important for everything from solving equations to understanding more complex mathematical concepts. Basically, we’re going to clean this up, combining like terms to make it as easy to read and work with as possible. The goal here is to group similar terms together. Think of it like organizing your toys: you wouldn’t leave all your Legos mixed up with your action figures, right? We’ll do the same with the letters (variables) and numbers (constants) in our expression. Don’t worry, it’s not as scary as it sounds. We’ll break it down step-by-step, making it totally manageable. The expression 6p + 7q + 5q + 10 has a few different parts: the term 6p , the term 7q , the term 5q , and the constant term 10 . Each of these can be thought of as a separate item in our equation and how we combine them is key here. Let’s get started.

Understanding the Basics: Like Terms and Constants

Okay, before we get our hands dirty, let’s talk about what we mean by “like terms.” Like terms are terms that have the same variables raised to the same powers. For instance, 7q and 5q are like terms because they both have the variable q raised to the power of 1 (which is just q ). On the other hand, 6p is not a like term with 7q or 5q because it has the variable p . Think of it this way: you can only add or subtract things that are the same. You can add apples to apples, and you can add bananas to bananas, but you can’t directly add apples to bananas and get a combined fruit. Makes sense, right? Now, what about the number 10 ? This is a constant term, which means it’s just a number without any variables attached. Constants are like the lone rangers in our expression; they stand alone, and we can’t combine them with variable terms. However, we can use them to simplify our expression, but not by combining them directly with terms that have variables. Remember, the constants are always the ones that stay as they are, unless you perform a mathematical operation with them.

Identifying Like Terms in 6p + 7q + 5q + 10

In our expression 6p + 7q + 5q + 10 , we have two pairs of like terms that need our attention. First, there’s 6p . This term has p and does not have any other like term to connect with. And then, we have 7q and 5q . They are both like terms because they share the variable q . Finally, we have the constant, which is just 10 . Understanding these basic components is vital for any simplification, so it’s something you’ll get very familiar with when practicing algebra. Now, here’s the fun part: let’s put these principles into action and start simplifying our expression step by step. Just remember to group the terms that can be added or subtracted from each other, and you’re good to go. The most common mistake beginners do is trying to match terms that are not matching, so be careful.

Step-by-Step Simplification

Alright, let’s simplify 6p + 7q + 5q + 10 . We’ll take it one step at a time to make sure we don’t miss anything. First, we identify the like terms. We know that 7q and 5q can be combined because they both have the variable q . Here’s what we do:

1. Combine the q terms : Add 7q and 5q . That equals 12q . So now our expression looks like this: 6p + 12q + 10 .
2. Check for more like terms : Now, we look at the simplified expression, 6p + 12q + 10 . Are there any more like terms to combine? Nope! 6p has a p and can’t be combined with anything. 12q has a q , and the constant 10 has no variables. Because there are no more like terms, that means we are done! The simplified expression is 6p + 12q + 10 .

Simplifying Using the Commutative Property (Optional)

Some people find it helpful to rearrange the terms using the commutative property of addition, which says you can change the order of terms being added without changing the sum. In our original expression, 6p + 7q + 5q + 10 , we can rearrange it to group like terms together: 6p + (7q + 5q) + 10 . However, this is just a visualization step, because the result will be the same. This can make the process clearer for some. The main goal, as you can see, is not to use the commutative property, but to understand what terms you can match together and then simplify them.

The Simplified Form of 6p + 7q + 5q + 10

So, after all that work, what is the simplified form of 6p + 7q + 5q + 10 ? It is 6p + 12q + 10 . This is the final answer, and it can’t be simplified any further because there are no more like terms to combine. We’ve successfully reduced the expression to its simplest form, making it easier to understand and use in further calculations. Congratulations! You’ve learned how to simplify an algebraic expression by combining like terms. This skill will serve you well as you continue to explore the world of mathematics. The final simplified expression is the most crucial part, so remember to double-check that you’ve combined all possible like terms. Make sure you haven’t skipped any terms, and that everything is in its simplest form. That’s all there is to it, guys!

Summary of Key Steps

Let’s recap what we did to simplify the expression 6p + 7q + 5q + 10 :

1. Identify like terms : We identified 7q and 5q as like terms.
2. Combine like terms : We added 7q and 5q to get 12q .
3. Rewrite the expression : We rewrote the expression as 6p + 12q + 10 .
4. Check for further simplification : We made sure there were no more like terms to combine.
5. Final result : The simplified expression is 6p + 12q + 10 . Remember these steps. They’re fundamental for any math simplification you will need to do.

Why Simplifying Matters

Why is simplifying expressions so important? Well, for starters, it makes complex equations easier to handle. When an equation is simplified, it is easier to solve for any unknown variables. Imagine you’re trying to build something and all the parts are scattered and disorganized. Wouldn’t it be easier if you had them grouped and organized? Simplifying is the same. Moreover, simplifying expressions often reveals hidden patterns and relationships within the equation. This can give you a deeper understanding of the problem you’re trying to solve. In real-world applications, from physics to finance, simplified equations are essential for creating models and making predictions. Basically, if you can’t simplify things, you will have a much harder time understanding them. It’s like trying to understand a super long sentence without any punctuation: you will get lost fast. So, keeping this in mind will make everything much easier for you!

Benefits of Simplification

• Easier problem-solving : Simplified expressions are much easier to manipulate and solve. By breaking down complex equations, we make them much easier to use. This is crucial for solving for unknown variables. This is what we call efficiency.
• Enhanced understanding : Simplifying allows you to see the core components and relationships within an equation more clearly. When you remove unnecessary components, you make it much easier to focus on what matters.
• Real-world applications : Simplifying is crucial in various fields, like engineering, economics, and computer science. From calculating the force of an object to managing your finance, it is a tool used by every profession.

Conclusion: Mastering Simplification

Great job, guys! You’ve now conquered the simplification of 6p + 7q + 5q + 10 . Remember to always look for like terms, combine them, and then check to make sure you’ve simplified as much as possible. Keep practicing, and it will become second nature to you. Practice a little every day to keep the skills fresh, and try different types of expressions with variables and constants. The more you do, the easier it will get. Now, go forth and simplify! And always remember: math doesn’t have to be hard. With a little practice and the right approach, anyone can master it. The key is to break the process down into manageable steps and always double-check your work. Keep exploring, keep learning, and don’t be afraid to ask for help if you need it. Math is a journey, and every problem is a chance to learn something new. The more you practice, the better you get, so keep practicing. Congratulations on taking this step. And, as always, keep up the great work!