A System Of Equations Is Shown. In The System Of Equations, What Is The Value Of $y$?$ \begin{cases} x = 10 \\ 3x + 5y = 20 \end{cases} $If $y$ Is Negative, Use A Minus Sign. $\square$

Introduction

A system of equations is a set of two or more equations that contain multiple variables. In this case, we are given a system of two equations with two variables, x and y. Our goal is to find the value of y. To do this, we will use the method of substitution to solve for y.

The System of Equations

The system of equations is given as:

\begin{cases} x = 10 \ 3x + 5y = 20 \end{cases}

Step 1: Substitute the Value of x into the Second Equation

We are given that x = 10. We can substitute this value into the second equation to get:

3(10) + 5y = 20

Step 2: Simplify the Equation

We can simplify the equation by multiplying 3 and 10:

30 + 5y = 20

Step 3: Isolate the Variable y

To isolate the variable y, we need to get rid of the constant term on the left-hand side of the equation. We can do this by subtracting 30 from both sides of the equation:

5y = -10

Step 4: Solve for y

To solve for y, we need to get rid of the coefficient of y, which is 5. We can do this by dividing both sides of the equation by 5:

y = -10/5

Step 5: Simplify the Fraction

We can simplify the fraction by dividing the numerator and denominator by their greatest common divisor, which is 5:

y = -2

Conclusion

Therefore, the value of y is -2.

Why is it Important to Solve Systems of Equations?

Solving systems of equations is an important skill in mathematics and has many real-world applications. For example, in physics, we can use systems of equations to model the motion of objects. In economics, we can use systems of equations to model the behavior of markets. In engineering, we can use systems of equations to design and optimize systems.

How to Solve Systems of Equations

There are several methods for solving systems of equations, including:

• Substitution Method: This method involves substituting the value of one variable into the other equation to solve for the other variable.
• Elimination Method: This method involves adding or subtracting the two equations to eliminate one of the variables.
• Graphical Method: This method involves graphing the two equations on a coordinate plane and finding the point of intersection.

Tips and Tricks for Solving Systems of Equations

Here are some tips and tricks for solving systems of equations:

• Make sure to read the problem carefully: Before starting to solve the system of equations, make sure to read the problem carefully and understand what is being asked.
• Use a systematic approach: Use a systematic approach to solve the system of equations, such as the substitution method or the elimination method.
• Check your work: Once you have solved the system of equations, check your work by plugging the values back into the original equations.

Common Mistakes to Avoid

Here are some common mistakes to avoid when solving systems of equations:

• Not reading the problem carefully: Failing to read the problem carefully can lead to mistakes and confusion.
• Not using a systematic approach: Failing to use a systematic approach can lead to mistakes and confusion.
• Not checking your work: Failing to check your work can lead to mistakes and confusion.

Conclusion

Q: What is a system of equations?

A: A system of equations is a set of two or more equations that contain multiple variables. In this case, we are given a system of two equations with two variables, x and y.

Q: How do I solve a system of equations?

A: There are several methods for solving systems of equations, including the substitution method, the elimination method, and the graphical method. The substitution method involves substituting the value of one variable into the other equation to solve for the other variable. The elimination method involves adding or subtracting the two equations to eliminate one of the variables. The graphical method involves graphing the two equations on a coordinate plane and finding the point of intersection.

Q: What is the substitution method?

A: The substitution method is a method for solving systems of equations that involves substituting the value of one variable into the other equation to solve for the other variable. For example, if we have the system of equations:

\begin{cases} x = 10 \ 3x + 5y = 20 \end{cases}

We can substitute the value of x into the second equation to get:

3(10) + 5y = 20

Q: What is the elimination method?

A: The elimination method is a method for solving systems of equations that involves adding or subtracting the two equations to eliminate one of the variables. For example, if we have the system of equations:

\begin{cases} x + 2y = 6 \ 3x - 4y = -2 \end{cases}

We can add the two equations to eliminate the variable x:

5y = 4

Q: What is the graphical method?

A: The graphical method is a method for solving systems of equations that involves graphing the two equations on a coordinate plane and finding the point of intersection. For example, if we have the system of equations:

\begin{cases} y = 2x - 3 \ y = x + 2 \end{cases}

We can graph the two equations on a coordinate plane and find the point of intersection.

Q: How do I know which method to use?

A: The choice of method depends on the specific system of equations and the variables involved. If the system of equations is linear, the substitution method or the elimination method may be the most efficient. If the system of equations is non-linear, the graphical method may be the most efficient.

Q: What are some common mistakes to avoid when solving systems of equations?

A: Some common mistakes to avoid when solving systems of equations include:

• Not reading the problem carefully
• Not using a systematic approach
• Not checking your work
• Not considering the possibility of multiple solutions
• Not considering the possibility of no solution

Q: How do I check my work when solving systems of equations?

A: To check your work when solving systems of equations, you can plug the values back into the original equations and verify that they are true. You can also use a calculator or computer program to check your work.

Q: What are some real-world applications of solving systems of equations?

A: Solving systems of equations has many real-world applications, including:

• Modeling the motion of objects in physics
• Modeling the behavior of markets in economics
• Designing and optimizing systems in engineering
• Solving problems in computer science and data analysis

Conclusion

In conclusion, solving systems of equations is an important skill in mathematics and has many real-world applications. By following the steps outlined in this article, you can learn how to solve systems of equations and apply this skill to a variety of problems. Remember to make sure to read the problem carefully, use a systematic approach, and check your work to avoid common mistakes.