How Would the Graph of the Line Representing Blue Cab Company
Systems of Equations and Inequalities
Systems of Linear Equations: Two Variables
Learning Objectives
In this section, you will:
- Solve systems of equations by graphing.
- Solve systems of equations by substitution.
- Solve systems of equations by addition.
- Identify inconsistent systems of equations containing two variables.
- Express the solution of a system of dependent equations containing two variables.
A skateboard manufacturer introduces a new line of boards. The manufacturer tracks its costs, which is the amount it spends to produce the boards, and its revenue, which is the amount it earns through sales of its boards. How can the company determine if it is making a profit with its new line? How many skateboards must be produced and sold before a profit is possible? In this section, we will consider linear equations with two variables to answer these and similar questions.
Introduction to Systems of Equations
In order to investigate situations such as that of the skateboard manufacturer, we need to recognize that we are dealing with more than one variable and likely more than one equation. A system of linear equations consists of two or more linear equations made up of two or more variables such that all equations in the system are considered simultaneously. To find the unique solution to a system of linear equations, we must find a numerical value for each variable in the system that will satisfy all equations in the system at the same time. Some linear systems may not have a solution and others may have an infinite number of solutions. In order for a linear system to have a unique solution, there must be at least as many equations as there are variables. Even so, this does not guarantee a unique solution.
In this section, we will look at systems of linear equations in two variables, which consist of two equations that contain two different variables. For example, consider the following system of linear equations in two variables.
The solution to a system of linear equations in two variables is any ordered pair that satisfies each equation independently. In this example, the ordered pair (4, 7) is the solution to the system of linear equations. We can verify the solution by substituting the values into each equation to see if the ordered pair satisfies both equations. Shortly we will investigate methods of finding such a solution if it exists.
In addition to considering the number of equations and variables, we can categorize systems of linear equations by the number of solutions. A consistent system of equations has at least one solution. A consistent system is considered to be an independent system if it has a single solution, such as the example we just explored. The two lines have different slopes and intersect at one point in the plane. A consistent system is considered to be a dependent system if the equations have the same slope and the same y-intercepts. In other words, the lines coincide so the equations represent the same line. Every point on the line represents a coordinate pair that satisfies the system. Thus, there are an infinite number of solutions.
Another type of system of linear equations is an inconsistent system, which is one in which the equations represent two parallel lines. The lines have the same slope and different y-intercepts. There are no points common to both lines; hence, there is no solution to the system.
Types of Linear Systems
There are three types of systems of linear equations in two variables, and three types of solutions.
- An independent system has exactly one solution pairThe point where the two lines intersect is the only solution.
- An inconsistent system has no solution. Notice that the two lines are parallel and will never intersect.
- A dependent system has infinitely many solutions. The lines are coincident. They are the same line, so every coordinate pair on the line is a solution to both equations.
(Figure) compares graphical representations of each type of system.
How To
Given a system of linear equations and an ordered pair, determine whether the ordered pair is a solution.
- Substitute the ordered pair into each equation in the system.
- Determine whether true statements result from the substitution in both equations; if so, the ordered pair is a solution.
Determining Whether an Ordered Pair Is a Solution to a System of Equations
Determine whether the ordered pairis a solution to the given system of equations.
[reveal-answer q="fs-id1165135547124″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135547124″]
Substitute the ordered pairinto both equations.
The ordered pairsatisfies both equations, so it is the solution to the system.
[/hidden-answer]
Analysis
We can see the solution clearly by plotting the graph of each equation. Since the solution is an ordered pair that satisfies both equations, it is a point on both of the lines and thus the point of intersection of the two lines. See (Figure).
Try It
Determine whether the ordered pairis a solution to the following system.
[reveal-answer q="fs-id1165135513561″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135513561″]
Not a solution.
[/hidden-answer]
Solving Systems of Equations by Graphing
There are multiple methods of solving systems of linear equations. For a system of linear equations in two variables, we can determine both the type of system and the solution by graphing the system of equations on the same set of axes.
Solving a System of Equations in Two Variables by Graphing
Solve the following system of equations by graphing. Identify the type of system.
[reveal-answer q="970051″]Show Solution[/reveal-answer]
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Solve the first equation for
Solve the second equation for
Graph both equations on the same set of axes as in (Figure).
The lines appear to intersect at the pointWe can check to make sure that this is the solution to the system by substituting the ordered pair into both equations.
The solution to the system is the ordered pairso the system is independent.
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Try It
Solve the following system of equations by graphing.
[reveal-answer q="192383″]Show Solution[/reveal-answer]
[hidden-answer a="192383″]
The solution to the system is the ordered pair
[/hidden-answer]
Can graphing be used if the system is inconsistent or dependent?
Yes, in both cases we can still graph the system to determine the type of system and solution. If the two lines are parallel, the system has no solution and is inconsistent. If the two lines are identical, the system has infinite solutions and is a dependent system.
Solving Systems of Equations by Substitution
Solving a linear system in two variables by graphing works well when the solution consists of integer values, but if our solution contains decimals or fractions, it is not the most precise method. We will consider two more methods of solving a system of linear equations that are more precise than graphing. One such method is solving a system of equations by the substitution method, in which we solve one of the equations for one variable and then substitute the result into the second equation to solve for the second variable. Recall that we can solve for only one variable at a time, which is the reason the substitution method is both valuable and practical.
How To
Given a system of two equations in two variables, solve using the substitution method.
- Solve one of the two equations for one of the variables in terms of the other.
- Substitute the expression for this variable into the second equation, then solve for the remaining variable.
- Substitute that solution into either of the original equations to find the value of the first variable. If possible, write the solution as an ordered pair.
- Check the solution in both equations.
Solving a System of Equations in Two Variables by Substitution
Solve the following system of equations by substitution.
[reveal-answer q="fs-id1165137849396″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165137849396″]
First, we will solve the first equation for
Now we can substitute the expressionforin the second equation.
Now, we substituteinto the first equation and solve for
Our solution is
Check the solution by substitutinginto both equations.
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Try It
Solve the following system of equations by substitution.
[reveal-answer q="fs-id1165135516681″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135516681″]
[/hidden-answer]
Can the substitution method be used to solve any linear system in two variables?
Yes, but the method works best if one of the equations contains a coefficient of 1 or –1 so that we do not have to deal with fractions.
Solving Systems of Equations in Two Variables by the Addition Method
A third method of solving systems of linear equations is the addition method. In this method, we add two terms with the same variable, but opposite coefficients, so that the sum is zero. Of course, not all systems are set up with the two terms of one variable having opposite coefficients. Often we must adjust one or both of the equations by multiplication so that one variable will be eliminated by addition.
How To
Given a system of equations, solve using the addition method.
- Write both equations with x– and y-variables on the left side of the equal sign and constants on the right.
- Write one equation above the other, lining up corresponding variables. If one of the variables in the top equation has the opposite coefficient of the same variable in the bottom equation, add the equations together, eliminating one variable. If not, use multiplication by a nonzero number so that one of the variables in the top equation has the opposite coefficient of the same variable in the bottom equation, then add the equations to eliminate the variable.
- Solve the resulting equation for the remaining variable.
- Substitute that value into one of the original equations and solve for the second variable.
- Check the solution by substituting the values into the other equation.
Solving a System by the Addition Method
Solve the given system of equations by addition.
[reveal-answer q="fs-id1165132078090″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165132078090″]
Both equations are already set equal to a constant. Notice that the coefficient ofin the second equation, –1, is the opposite of the coefficient ofin the first equation, 1. We can add the two equations to eliminatewithout needing to multiply by a constant.
Now that we have eliminated we can solve the resulting equation for
Then, we substitute this value forinto one of the original equations and solve for
The solution to this system is
Check the solution in the first equation.
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Analysis
We gain an important perspective on systems of equations by looking at the graphical representation. See (Figure) to find that the equations intersect at the solution. We do not need to ask whether there may be a second solution because observing the graph confirms that the system has exactly one solution.
Using the Addition Method When Multiplication of One Equation Is Required
Solve the given system of equations by the addition method.
[reveal-answer q="fs-id1165137611459″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165137611459″]
Adding these equations as presented will not eliminate a variable. However, we see that the first equation hasin it and the second equation hasSo if we multiply the second equation bythe x-terms will add to zero.
Now, let's add them.
For the last step, we substituteinto one of the original equations and solve for
Our solution is the ordered pairSee (Figure). Check the solution in the original second equation.
[/hidden-answer]
Try It
Solve the system of equations by addition.
[reveal-answer q="fs-id1165137884374″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165137884374″]
[/hidden-answer]
Using the Addition Method When Multiplication of Both Equations Is Required
Solve the given system of equations in two variables by addition.
[reveal-answer q="fs-id1165134547404″]Show Solution[/reveal-answer]
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One equation hasand the other hasThe least common multiple isso we will have to multiply both equations by a constant in order to eliminate one variable. Let's eliminateby multiplying the first equation byand the second equation by
Then, we add the two equations together.
Substituteinto the original first equation.
The solution isCheck it in the other equation.
See (Figure).
Using the Addition Method in Systems of Equations Containing Fractions
Solve the given system of equations in two variables by addition.
[reveal-answer q="fs-id1165135154453″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135154453″]
First clear each equation of fractions by multiplying both sides of the equation by the least common denominator.
Now multiply the second equation byso that we can eliminate the x-variable.
Add the two equations to eliminate the x-variable and solve the resulting equation.
Substituteinto the first equation.
The solution isCheck it in the other equation.
[/hidden-answer]
Try It
Solve the system of equations by addition.
[reveal-answer q="fs-id1165135547107″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135547107″]
[/hidden-answer]
Identifying Inconsistent Systems of Equations Containing Two Variables
Now that we have several methods for solving systems of equations, we can use the methods to identify inconsistent systems. Recall that an inconsistent system consists of parallel lines that have the same slope but different-intercepts. They will never intersect. When searching for a solution to an inconsistent system, we will come up with a false statement, such as
Solving an Inconsistent System of Equations
Solve the following system of equations.
[reveal-answer q="fs-id1165135369110″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135369110″]
We can approach this problem in two ways. Because one equation is already solved for the most obvious step is to use substitution.
Clearly, this statement is a contradiction becauseTherefore, the system has no solution.
The second approach would be to first manipulate the equations so that they are both in slope-intercept form. We manipulate the first equation as follows.
We then convert the second equation expressed to slope-intercept form.
Comparing the equations, we see that they have the same slope but different y-intercepts. Therefore, the lines are parallel and do not intersect.
[/hidden-answer]
Analysis
Writing the equations in slope-intercept form confirms that the system is inconsistent because all lines will intersect eventually unless they are parallel. Parallel lines will never intersect; thus, the two lines have no points in common. The graphs of the equations in this example are shown in (Figure).
Try It
Solve the following system of equations in two variables.
[reveal-answer q="fs-id1165135189710″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135189710″]
No solution. It is an inconsistent system.
[/hidden-answer]
Expressing the Solution of a System of Dependent Equations Containing Two Variables
Recall that a dependent system of equations in two variables is a system in which the two equations represent the same line. Dependent systems have an infinite number of solutions because all of the points on one line are also on the other line. After using substitution or addition, the resulting equation will be an identity, such as
Finding a Solution to a Dependent System of Linear Equations
Find a solution to the system of equations using the addition method.
[reveal-answer q="fs-id1165134339902″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134339902″]
With the addition method, we want to eliminate one of the variables by adding the equations. In this case, let's focus on eliminatingIf we multiply both sides of the first equation by then we will be able to eliminate the-variable.
Now add the equations.
We can see that there will be an infinite number of solutions that satisfy both equations.
[/hidden-answer]
Analysis
If we rewrote both equations in the slope-intercept form, we might know what the solution would look like before adding. Let's look at what happens when we convert the system to slope-intercept form.
See (Figure). Notice the results are the same. The general solution to the system is
Try It
Solve the following system of equations in two variables.
[reveal-answer q="fs-id1165135176847″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135176847″]
The system is dependent so there are infinite solutions of the form
[/hidden-answer]
Using Systems of Equations to Investigate Profits
Using what we have learned about systems of equations, we can return to the skateboard manufacturing problem at the beginning of the section. The skateboard manufacturer's revenue function is the function used to calculate the amount of money that comes into the business. It can be represented by the equation wherequantity andprice. The revenue function is shown in orange in (Figure).
The cost function is the function used to calculate the costs of doing business. It includes fixed costs, such as rent and salaries, and variable costs, such as utilities. The cost function is shown in blue in (Figure). The-axis represents quantity in hundreds of units. The y-axis represents either cost or revenue in hundreds of dollars.
The point at which the two lines intersect is called the break-even point. We can see from the graph that if 700 units are produced, the cost is $3,300 and the revenue is also $3,300. In other words, the company breaks even if they produce and sell 700 units. They neither make money nor lose money.
The shaded region to the right of the break-even point represents quantities for which the company makes a profit. The shaded region to the left represents quantities for which the company suffers a loss. The profit function is the revenue function minus the cost function, written asClearly, knowing the quantity for which the cost equals the revenue is of great importance to businesses.
Finding the Break-Even Point and the Profit Function Using Substitution
Given the cost functionand the revenue functionfind the break-even point and the profit function.
[reveal-answer q="fs-id1165135417008″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135417008″]
Write the system of equations usingto replace function notation.
Substitute the expressionfrom the first equation into the second equation and solve for
Then, we substituteinto either the cost function or the revenue function.
The break-even point is
The profit function is found using the formula
The profit function is[/hidden-answer]
Analysis
The cost to produce 50,000 units is $77,500, and the revenue from the sales of 50,000 units is also $77,500. To make a profit, the business must produce and sell more than 50,000 units. See (Figure).
We see from the graph in (Figure) that the profit function has a negative value until when the graph crosses the x-axis. Then, the graph emerges into positive y-values and continues on this path as the profit function is a straight line. This illustrates that the break-even point for businesses occurs when the profit function is 0. The area to the left of the break-even point represents operating at a loss.
[reveal-answer q="fs-id1165135173070″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135173070″]
Let c = the number of children and a = the number of adults in attendance.
The total number of people isWe can use this to write an equation for the number of people at the circus that day.
The revenue from all children can be found by multiplyingby the number of children,The revenue from all adults can be found by multiplyingby the number of adults,The total revenue isWe can use this to write an equation for the revenue.
We now have a system of linear equations in two variables.
In the first equation, the coefficient of both variables is 1. We can quickly solve the first equation for eitherorWe will solve for
Substitute the expressionin the second equation forand solve for
Substituteinto the first equation to solve for
We find thatchildren andadults bought tickets to the circus that day.[/hidden-answer]
Try It
Meal tickets at the circus costfor children andfor adults. Ifmeal tickets were bought for a total of how many children and how many adults bought meal tickets?
[reveal-answer q="fs-id1165134483375″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134483375″]
700 children, 950 adults
[/hidden-answer]
Key Concepts
- A system of linear equations consists of two or more equations made up of two or more variables such that all equations in the system are considered simultaneously.
- The solution to a system of linear equations in two variables is any ordered pair that satisfies each equation independently. See (Figure).
- Systems of equations are classified as independent with one solution, dependent with an infinite number of solutions, or inconsistent with no solution.
- One method of solving a system of linear equations in two variables is by graphing. In this method, we graph the equations on the same set of axes. See (Figure).
- Another method of solving a system of linear equations is by substitution. In this method, we solve for one variable in one equation and substitute the result into the second equation. See (Figure).
- A third method of solving a system of linear equations is by addition, in which we can eliminate a variable by adding opposite coefficients of corresponding variables. See (Figure).
- It is often necessary to multiply one or both equations by a constant to facilitate elimination of a variable when adding the two equations together. See (Figure), (Figure), and (Figure).
- Either method of solving a system of equations results in a false statement for inconsistent systems because they are made up of parallel lines that never intersect. See (Figure).
- The solution to a system of dependent equations will always be true because both equations describe the same line. See (Figure).
- Systems of equations can be used to solve real-world problems that involve more than one variable, such as those relating to revenue, cost, and profit. See (Figure) and (Figure).
Section Exercises
Verbal
Can a system of linear equations have exactly two solutions? Explain why or why not.
[reveal-answer q="fs-id1165133393406″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165133393406″]
No, you can either have zero, one, or infinitely many. Examine graphs.
[/hidden-answer]
If you are performing a break-even analysis for a business and their cost and revenue equations are dependent, explain what this means for the company's profit margins.
If you are solving a break-even analysis and get a negative break-even point, explain what this signifies for the company?
[reveal-answer q="fs-id1165133305360″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165133305360″]
This means there is no realistic break-even point. By the time the company produces one unit they are already making profit.
[/hidden-answer]
If you are solving a break-even analysis and there is no break-even point, explain what this means for the company. How should they ensure there is a break-even point?
Given a system of equations, explain at least two different methods of solving that system.
[reveal-answer q="fs-id1165133305378″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165133305378″]
You can solve by substitution (isolatingor), graphically, or by addition.
[/hidden-answer]
Algebraic
For the following exercises, determine whether the given ordered pair is a solution to the system of equations.
and
and
[reveal-answer q="fs-id1165135199325″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135199325″]
Yes
[/hidden-answer]
and
and
[reveal-answer q="fs-id1165134350004″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134350004″]
Yes
[/hidden-answer]
and
For the following exercises, solve each system by substitution.
[reveal-answer q="fs-id1165135539001″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135539001″]
[/hidden-answer]
[reveal-answer q="fs-id1165134323576″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134323576″]
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[reveal-answer q="fs-id1165137938420″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165137938420″]
[/hidden-answer]
[reveal-answer q="fs-id1165133370749″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165133370749″]
No solutions exist.
[/hidden-answer]
[reveal-answer q="fs-id1165134087628″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134087628″]
[/hidden-answer]
For the following exercises, solve each system by addition.
[reveal-answer q="fs-id1165133237152″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165133237152″]
[/hidden-answer]
[reveal-answer q="fs-id1165137835514″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165137835514″]
[/hidden-answer]
[reveal-answer q="fs-id1165134179654″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134179654″]
No solutions exist.
[/hidden-answer]
[reveal-answer q="fs-id1165134116811″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134116811″]
[/hidden-answer]
[reveal-answer q="fs-id1165132041743″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165132041743″]
[/hidden-answer]
For the following exercises, solve each system by any method.
[reveal-answer q="fs-id1165135397097″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135397097″]
[/hidden-answer]
[reveal-answer q="fs-id1165135586948″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135586948″]
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[reveal-answer q="fs-id1165135555431″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135555431″]
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[reveal-answer q="fs-id1165134167283″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134167283″]
[/hidden-answer]
[reveal-answer q="fs-id1165134118216″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134118216″]
[/hidden-answer]
Graphical
For the following exercises, graph the system of equations and state whether the system is consistent, inconsistent, or dependent and whether the system has one solution, no solution, or infinite solutions.
[reveal-answer q="fs-id1165134279202″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134279202″]
Consistent with one solution
[/hidden-answer]
[reveal-answer q="fs-id1165134475652″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134475652″]
Consistent with one solution
[/hidden-answer]
[reveal-answer q="fs-id1165133290327″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165133290327″]
Dependent with infinitely many solutions
[/hidden-answer]
Technology
For the following exercises, use the intersect function on a graphing device to solve each system. Round all answers to the nearest hundredth.
[reveal-answer q="fs-id1165134186354″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134186354″]
[/hidden-answer]
[reveal-answer q="fs-id1165131880336″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165131880336″]
[/hidden-answer]
Extensions
For the following exercises, solve each system in terms ofandwhereare nonzero numbers. Note thatand
[reveal-answer q="fs-id1165137832653″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165137832653″]
[/hidden-answer]
[reveal-answer q="fs-id1165134494238″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134494238″]
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[reveal-answer q="fs-id1165133252901″]Show Solution[/reveal-answer]
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Real-World Applications
For the following exercises, solve for the desired quantity.
A stuffed animal business has a total cost of productionand a revenue functionFind the break-even point.
A fast-food restaurant has a cost of productionand a revenue functionWhen does the company start to turn a profit?
[reveal-answer q="fs-id1165133315058″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165133315058″]
They never turn a profit.
[/hidden-answer]
A cell phone factory has a cost of productionand a revenue functionWhat is the break-even point?
A musician chargeswhereis the total number of attendees at the concert. The venue charges $80 per ticket. After how many people buy tickets does the venue break even, and what is the value of the total tickets sold at that point?
[reveal-answer q="fs-id1165135633718″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135633718″]
[/hidden-answer]
A guitar factory has a cost of productionIf the company needs to break even after 150 units sold, at what price should they sell each guitar? Round up to the nearest dollar, and write the revenue function.
For the following exercises, use a system of linear equations with two variables and two equations to solve.
Find two numbers whose sum is 28 and difference is 13.
[reveal-answer q="fs-id1165131863016″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165131863016″]
The numbers are 7.5 and 20.5.
[/hidden-answer]
A number is 9 more than another number. Twice the sum of the two numbers is 10. Find the two numbers.
The startup cost for a restaurant is $120,000, and each meal costs $10 for the restaurant to make. If each meal is then sold for $15, after how many meals does the restaurant break even?
[reveal-answer q="fs-id1165134199409″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134199409″]
24,000
[/hidden-answer]
A moving company charges a flat rate of $150, and an additional $5 for each box. If a taxi service would charge $20 for each box, how many boxes would you need for it to be cheaper to use the moving company, and what would be the total cost?
A total of 1,595 first- and second-year college students gathered at a pep rally. The number of freshmen exceeded the number of sophomores by 15. How many freshmen and sophomores were in attendance?
[reveal-answer q="fs-id1165134199428″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134199428″]
790 sophomores, 805 freshman
[/hidden-answer]
276 students enrolled in a freshman-level chemistry class. By the end of the semester, 5 times the number of students passed as failed. Find the number of students who passed, and the number of students who failed.
There were 130 faculty at a conference. If there were 18 more women than men attending, how many of each gender attended the conference?
[reveal-answer q="fs-id1165134254374″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134254374″]
56 men, 74 women
[/hidden-answer]
A jeep and BMW enter a highway running east-west at the same exit heading in opposite directions. The jeep entered the highway 30 minutes before the BMW did, and traveled 7 mph slower than the BMW. After 2 hours from the time the BMW entered the highway, the cars were 306.5 miles apart. Find the speed of each car, assuming they were driven on cruise control.
If a scientist mixed 10% saline solution with 60% saline solution to get 25 gallons of 40% saline solution, how many
gallons of 10% and 60% solutions were mixed?
[reveal-answer q="fs-id1165134254393″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134254393″]
10 gallons of 10% solution, 15 gallons of 60% solution
[/hidden-answer]
An investor earned triple the profits of what she earned last year. If she made $500,000.48 total for both years, how much did she earn in profits each year?
An investor who dabbles in real estate invested 1.1 million dollars into two land investments. On the first investment, Swan Peak, her return was a 110% increase on the money she invested. On the second investment, Riverside Community, she earned 50% over what she invested. If she earned $1 million in profits, how much did she invest in each of the land deals?
[reveal-answer q="fs-id1165133227646″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165133227646″]
Swan Peak: $750,000, Riverside: $350,000
[/hidden-answer]
If an investor invests a total of $25,000 into two bonds, one that pays 3% simple interest, and the other that pays
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interest, and the investor earns $737.50 annual interest, how much was invested in each account?
If an investor invests $23,000 into two bonds, one that pays 4% in simple interest, and the other paying 2% simple interest, and the investor earns $710.00 annual interest, how much was invested in each account?
[reveal-answer q="fs-id1165134061799″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134061799″]
$12,500 in the first account, $10,500 in the second account.
[/hidden-answer]
CDs cost $5.96 more than DVDs at All Bets Are Off Electronics. How much would 6 CDs and 2 DVDs cost if 5 CDs and 2 DVDs cost $127.73?
A store clerk sold 60 pairs of sneakers. The high-tops sold for $98.99 and the low-tops sold for $129.99. If the receipts for the two types of sales totaled $6,404.40, how many of each type of sneaker were sold?
[reveal-answer q="fs-id1165134061817″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165134061817″]
High-tops: 45, Low-tops: 15
[/hidden-answer]
A concert manager counted 350 ticket receipts the day after a concert. The price for a student ticket was $12.50, and the price for an adult ticket was $16.00. The register confirms that $5,075 was taken in. How many student tickets and adult tickets were sold?
Admission into an amusement park for 4 children and 2 adults is $116.90. For 6 children and 3 adults, the admission is $175.35. Assuming a different price for children and adults, what is the price of the child's ticket and the price of the adult ticket?
[reveal-answer q="fs-id1165135363419″]Show Solution[/reveal-answer]
[hidden-answer a="fs-id1165135363419″]
Infinitely many solutions. We need more information.
[/hidden-answer]
Source: https://opentextbc.ca/algebratrigonometryopenstax/chapter/systems-of-linear-equations-two-variables/
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