Equations with more than One Variable - College Algebra
Card 0 of 16
Solve for X:
Solve for X:
In 
, if we're solving for x, we first need to get the "x" term isolated. We do this by subtracting 3 from both sides so:
becomes
Now we divide both sides by 8
Re-written the answer becomes
In
becomes
Now we divide both sides by 8
Re-written the answer becomes
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Larry has a handful of dimes and quarters. In total, he has 14 coins with a value of $2.60. How many of each coin does he have?
Larry has a handful of dimes and quarters. In total, he has 14 coins with a value of $2.60. How many of each coin does he have?
Since this problems has 2 variables (D-dimes and Q-quarters) we need 2 equations. Because Larry has 14 coins, the first equation can be written as:
The value of those coins equals $2.60 or 260 cents. If Dimes are worth 10C and quarters are 25C, the next equation can be written as
To solve this write both equations on top of each other
Now we eliminate 1 variable by multiplying 1 equation by the lowest common denominator (as a negative) and adding the equations together.
becomes
adding the equations
-----------------------------------
now we solve for Q.
Since we know Q, now we plug it back in to an equation and find D
Larry has 6 dimes and 8 quarters
Since this problems has 2 variables (D-dimes and Q-quarters) we need 2 equations. Because Larry has 14 coins, the first equation can be written as:
The value of those coins equals $2.60 or 260 cents. If Dimes are worth 10C and quarters are 25C, the next equation can be written as
To solve this write both equations on top of each other
Now we eliminate 1 variable by multiplying 1 equation by the lowest common denominator (as a negative) and adding the equations together.
adding the equations
-----------------------------------
now we solve for Q.
Since we know Q, now we plug it back in to an equation and find D
Larry has 6 dimes and 8 quarters
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The town of Marysville is hosting its annual festival. For admission tickets, adults are charged $8, and children are charged $4. The town sold 2300 tickets and took in $13,688 in total ticket revenue. How many more children were admitted to the festival than adults?
The town of Marysville is hosting its annual festival. For admission tickets, adults are charged $8, and children are charged $4. The town sold 2300 tickets and took in $13,688 in total ticket revenue. How many more children were admitted to the festival than adults?
This question requires setting up two equations and then solving the system of two equations. One equation represents the total number of tickets sold, and the other equation represents the total revenue. Both equations will use the same two variables, 
and 
, for the number of children and adults who were admitted, respectively.
The first equation is the easier of the two. The sum of the number of children and the number of adults admitted to the fair will equal 2300.
The second equation will incorporate the price charged to children and adults
Children's tickets cost $4 and adults' tickets cost $8. The total amount of money raised was $13,688.
To solve the system of equations, you can eliminate one of the variables. One way to do this is via the elimination method. To eliminate 
Now add the two equations together to eliminate a variable.
--------------------------------
Solve for 
.
Substitute 
into either of the original equations and solve for 
.
There were 1178 children and 1122 adults admitted to the festival. Finally, subtract the results.
This question requires setting up two equations and then solving the system of two equations. One equation represents the total number of tickets sold, and the other equation represents the total revenue. Both equations will use the same two variables, 
The first equation is the easier of the two. The sum of the number of children and the number of adults admitted to the fair will equal 2300.
The second equation will incorporate the price charged to children and adults
Children's tickets cost $4 and adults' tickets cost $8. The total amount of money raised was $13,688.
To solve the system of equations, you can eliminate one of the variables. One way to do this is via the elimination method. To eliminate
Now add the two equations together to eliminate a variable.
--------------------------------
Solve for 
Substitute 
There were 1178 children and 1122 adults admitted to the festival. Finally, subtract the results.
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Solve for X and Y for the following pair of equations
Solve for X and Y for the following pair of equations
There are two ways to solve for x and y in a pair of equations. One way is to add the two equations together and eliminate one of the variables. It may be necessary to multiply one equation by a positive or negative number in order to cancel out one of the variables. The second way is to pick one of the equations and solve for one of the variables. Let's pick the top equation and solve for x:
Now substitute x on the other (bottom) equation:
Now, since we know the value of y, use either equation and "plug in" the value of y:
To check your answers, you can plug in both answers to either equation, and since they are equations, if both sides are equal, your answers are correct.
There are two ways to solve for x and y in a pair of equations. One way is to add the two equations together and eliminate one of the variables. It may be necessary to multiply one equation by a positive or negative number in order to cancel out one of the variables. The second way is to pick one of the equations and solve for one of the variables. Let's pick the top equation and solve for x:
Now substitute x on the other (bottom) equation:
Now, since we know the value of y, use either equation and "plug in" the value of y:
To check your answers, you can plug in both answers to either equation, and since they are equations, if both sides are equal, your answers are correct.
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Solve for X and Y with the following set of equations:
Solve for X and Y with the following set of equations:
There are 2 ways to solve this set of equations. First, you can solve for one of the variables, then substitute that value for the variable in the other equation. The other way is to add the equations together (combine), and to do this, sometimes multiplying one of the equation by a positive or negative number is required. Let's see how we can do this:
Remember the key is to add the two equations together and eliminate one of the variables:
Look at the x and y variables. Notice how if we added the two equations together, we can eliminate the x variable and we can thus solve for y:
So now, add the two equations together:
We got this buy adding 4y + 2y and 22+2. Now let's divide the equation by 6, so we can solve the value of y.
so
Now plug the known value of y into either of the two equations. Let's use the top equation. Remember it doesn't matter which equation you pick to solve for x:
If you want to double-check your answers, just insert your values of x and y into the equation, and remember that since it's an equation, both sides will be equal.
There are 2 ways to solve this set of equations. First, you can solve for one of the variables, then substitute that value for the variable in the other equation. The other way is to add the equations together (combine), and to do this, sometimes multiplying one of the equation by a positive or negative number is required. Let's see how we can do this:
Remember the key is to add the two equations together and eliminate one of the variables:
Look at the x and y variables. Notice how if we added the two equations together, we can eliminate the x variable and we can thus solve for y:
So now, add the two equations together:
We got this buy adding 4y + 2y and 22+2. Now let's divide the equation by 6, so we can solve the value of y.
Now plug the known value of y into either of the two equations. Let's use the top equation. Remember it doesn't matter which equation you pick to solve for x:
If you want to double-check your answers, just insert your values of x and y into the equation, and remember that since it's an equation, both sides will be equal.
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Solve for X and Y for in the following pair of equations
Solve for X and Y for in the following pair of equations
There are 2 ways to solve this set of equations. First, you can solve for one of the variables, then substitute that value for the variable in the other equation. The other way is to add the equations together (combine), and to do this, sometimes multiplying one of the equation by a positive or negative number is required. Let's see how we can do this:
Remember the key is to add the two equations together and eliminate one of the variables.
so let's look at the pair of equations. Both x's are positive, so we'd have to multiply one of the equations by -1 to eliminate the x variable. Let's look at the y. One is positive, and one is negative, so adding the equations as they are would eliminate y. So after you add the two equations together, you will get:
The y was eliminated as you can see, so now we can solve for x. Let's divide both sides by 2 to isolate the x variable:
Now that we have the value of x, all you have to do is plug the value of x into either of the two equations to solve for y. Let's pick the top equation:
Now subtract 4 from each side to isolate the y and solve for y:
If you want to check your answers, just plug the values you got for x and y into either of the pair of equations. Since they are equations, both sides will be equal if you found the correct values for x and y.
There are 2 ways to solve this set of equations. First, you can solve for one of the variables, then substitute that value for the variable in the other equation. The other way is to add the equations together (combine), and to do this, sometimes multiplying one of the equation by a positive or negative number is required. Let's see how we can do this:
Remember the key is to add the two equations together and eliminate one of the variables.
so let's look at the pair of equations. Both x's are positive, so we'd have to multiply one of the equations by -1 to eliminate the x variable. Let's look at the y. One is positive, and one is negative, so adding the equations as they are would eliminate y. So after you add the two equations together, you will get:
The y was eliminated as you can see, so now we can solve for x. Let's divide both sides by 2 to isolate the x variable:
Now that we have the value of x, all you have to do is plug the value of x into either of the two equations to solve for y. Let's pick the top equation:
Now subtract 4 from each side to isolate the y and solve for y:
If you want to check your answers, just plug the values you got for x and y into either of the pair of equations. Since they are equations, both sides will be equal if you found the correct values for x and y.
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Solve for x and y in the following pair of equations
Solve for x and y in the following pair of equations
There are 2 ways to solve this set of equations. First, you can solve for one of the variables, then substitute that value for the variable in the other equation. The other way is to add the equations together (combine), and to do this, sometimes multiplying one of the equation by a positive or negative number is required. Let's see how we can do this: Remember the key is to add the two equations together and eliminate one of the variables. Let's look at the pair of equations. With either of the variables, since both x an y are positive and negative, you just have to multiply one of the equations in order to eliminate one of the variables. Let's eliminate y.
In order to eliminate y, we will have to multiply the bottom equation by 2. When adding the two equations together, -4y and 4y will then cancel each other out, allowing you to solve for x.
So now this is the new pair of equations, where y is eliminated. Now just add the two equations together:
So the resulting equation after adding these equations together is:
Now divide both sides by -9 to solve for x:
Now just plug in the value of x into either of the two equations. Let's pick the top equation:
Now subtract six from both sides to isolate the y:
Now divide both sides by -4 to solve for y;
If you want to check your answers, just plug in your values of x and y into either of the equations. Since they are equations, if both sides are equal, you got the right answers.
There are 2 ways to solve this set of equations. First, you can solve for one of the variables, then substitute that value for the variable in the other equation. The other way is to add the equations together (combine), and to do this, sometimes multiplying one of the equation by a positive or negative number is required. Let's see how we can do this: Remember the key is to add the two equations together and eliminate one of the variables. Let's look at the pair of equations. With either of the variables, since both x an y are positive and negative, you just have to multiply one of the equations in order to eliminate one of the variables. Let's eliminate y.
In order to eliminate y, we will have to multiply the bottom equation by 2. When adding the two equations together, -4y and 4y will then cancel each other out, allowing you to solve for x.
So now this is the new pair of equations, where y is eliminated. Now just add the two equations together:
So the resulting equation after adding these equations together is:
Now divide both sides by -9 to solve for x:
Now just plug in the value of x into either of the two equations. Let's pick the top equation:
Now subtract six from both sides to isolate the y:
Now divide both sides by -4 to solve for y;
If you want to check your answers, just plug in your values of x and y into either of the equations. Since they are equations, if both sides are equal, you got the right answers.
Compare your answer with the correct one above
Solve for x and y in the following pair of equations
Solve for x and y in the following pair of equations
There are two ways to solve for x and y in a pair of equations. One way is to add the two equations together, eliminating one of the variables. This may require multiplying one of the equations by a positive or negative number. The other method is to pick one of the equations and solve for one of the variables. Then plug the value you found for the variable into the other equation and solve for a variable. Then you will plug in the solved value for that variable into either equation and solve for the other equation. Remember, you can solve for x and y using either of these methods. This time, let's solve for x then substitute that value into the other equation:
Let's solve for x using the bottom equation. It would be easier than to divide the top equation by 4 to solve for x: So let's subtract 3y from each side in order to solve for x:
Now just plug this into the other (top) equation to solve for y
Now subtract 64 from both sides to isolate y:
Now divide both sides by -11 to solve for y:
Now just plug in the known value of y into either of the equations in order to solve for x. Let's pick the top equation:
Now subtract three from each side:
Now divide both sides by four to solve for x:
If you want to check your answers, plug in both values of x and y into either equation, and since it's an equation, both sides will be equal if your answers are correct.
There are two ways to solve for x and y in a pair of equations. One way is to add the two equations together, eliminating one of the variables. This may require multiplying one of the equations by a positive or negative number. The other method is to pick one of the equations and solve for one of the variables. Then plug the value you found for the variable into the other equation and solve for a variable. Then you will plug in the solved value for that variable into either equation and solve for the other equation. Remember, you can solve for x and y using either of these methods. This time, let's solve for x then substitute that value into the other equation:
Let's solve for x using the bottom equation. It would be easier than to divide the top equation by 4 to solve for x: So let's subtract 3y from each side in order to solve for x:
Now just plug this into the other (top) equation to solve for y
Now subtract 64 from both sides to isolate y:
Now divide both sides by -11 to solve for y:
Now just plug in the known value of y into either of the equations in order to solve for x. Let's pick the top equation:
Now subtract three from each side:
Now divide both sides by four to solve for x:
If you want to check your answers, plug in both values of x and y into either equation, and since it's an equation, both sides will be equal if your answers are correct.
Compare your answer with the correct one above
Solve for x and y in the following pair of equations
Solve for x and y in the following pair of equations
There are two ways to solve for x and y in a pair of equations. The first method is to add the two equations together, eliminating a variable. This may require multiplying an equation by a positive or negative number in order to eliminate one of the variables. Since there are odd and even numbers in front of the variables in this case, it would be easier to use the second method, which is solving for a variable, then plugging in that value into the other equation. So let's pick the bottom equation to solve for x:
Subtract 2y from each side to isolate x:
Now divide both sides by 2 to solve for x:
Now plug in this value for x into the other (top) equation:
Subtract 54 from each side to isolate y:
Now divide both sides by -16 to solve for y:
Now plug in the value of y into either equation to solve for x:
Let's pick the bottom equation:
Now subtract six from both sides to isolate x:
Now divide both sides by 2 to solve for x:
You can check your answers by plugging in your answers into either of the equations:
Since they are equations, if both sides are equal, your answers are correct.
There are two ways to solve for x and y in a pair of equations. The first method is to add the two equations together, eliminating a variable. This may require multiplying an equation by a positive or negative number in order to eliminate one of the variables. Since there are odd and even numbers in front of the variables in this case, it would be easier to use the second method, which is solving for a variable, then plugging in that value into the other equation. So let's pick the bottom equation to solve for x:
Subtract 2y from each side to isolate x:
Now divide both sides by 2 to solve for x:
Now plug in this value for x into the other (top) equation:
Subtract 54 from each side to isolate y:
Now divide both sides by -16 to solve for y:
Now plug in the value of y into either equation to solve for x:
Let's pick the bottom equation:
Now subtract six from both sides to isolate x:
Now divide both sides by 2 to solve for x:
You can check your answers by plugging in your answers into either of the equations:
Since they are equations, if both sides are equal, your answers are correct.
Compare your answer with the correct one above
Solve for x and y in the following pair of equations
Solve for x and y in the following pair of equations
There are 2 ways to solve this set of equations. First, you can solve for one of the variables, then substitute that value for the variable in the other equation. The other way is to add the equations together (combine), and to do this, sometimes multiplying one of the equation by a positive or negative number is required. Let's see how we can do this:
Remember the key is to add the two equations together and eliminate one of the variables:
In this case, you can see how if you add the two equations together, the y variable is eliminated, since y and -y eliminate each other:
When you combine the two equations, you get:
Divide both sides by 16 to solve for x:
To solve for y, plug in the value of x into either equation.
Let's pick the top equation:
Now subtract 18 from each side to solve for y:
You can check your answers by plugging your answers into either of the two equations. Since it is an equation, both sides will be equal if your answers are correct.
There are 2 ways to solve this set of equations. First, you can solve for one of the variables, then substitute that value for the variable in the other equation. The other way is to add the equations together (combine), and to do this, sometimes multiplying one of the equation by a positive or negative number is required. Let's see how we can do this:
Remember the key is to add the two equations together and eliminate one of the variables:
In this case, you can see how if you add the two equations together, the y variable is eliminated, since y and -y eliminate each other:
When you combine the two equations, you get:
Divide both sides by 16 to solve for x:
To solve for y, plug in the value of x into either equation.
Let's pick the top equation:
Now subtract 18 from each side to solve for y:
You can check your answers by plugging your answers into either of the two equations. Since it is an equation, both sides will be equal if your answers are correct.
Compare your answer with the correct one above
Solve for x and y in the following pair of equations
Solve for x and y in the following pair of equations
There are 2 ways to solve this set of equations. First, you can solve for one of the variables, then substitute that value for the variable in the other equation. The other way is to add the equations together (combine), and to do this, sometimes multiplying one of the equation by a positive or negative number is required. Let's see how we can do this:
Remember the key is to add the two equations together and eliminate one of the variables.
In this case, you can see how you can eliminate the y variable by multiplying the bottom equation by 2 so that way 4y and -4y will cancel each other out:
so now adding the top equation and the bottom equation that was multiplied by 2 gives you:
Now divide both sides by 21 to solve for x:
Now pick either equation and plug in the value of x to solve for y:
Let's pick the top equation:
Now subtract 18 from each side to isolate y:
Now divide both sides by 4 to solve for y:
To check your answers, just plug in your answers into either equation, and since it is an equation, both sides will be equal if your answers are correct.
There are 2 ways to solve this set of equations. First, you can solve for one of the variables, then substitute that value for the variable in the other equation. The other way is to add the equations together (combine), and to do this, sometimes multiplying one of the equation by a positive or negative number is required. Let's see how we can do this:
Remember the key is to add the two equations together and eliminate one of the variables.
In this case, you can see how you can eliminate the y variable by multiplying the bottom equation by 2 so that way 4y and -4y will cancel each other out:
so now adding the top equation and the bottom equation that was multiplied by 2 gives you:
Now divide both sides by 21 to solve for x:
Now pick either equation and plug in the value of x to solve for y:
Let's pick the top equation:
Now subtract 18 from each side to isolate y:
Now divide both sides by 4 to solve for y:
To check your answers, just plug in your answers into either equation, and since it is an equation, both sides will be equal if your answers are correct.
Compare your answer with the correct one above
Solve for x and y in the following pair of equations
Solve for x and y in the following pair of equations
There are two ways to solve for x and y in this pair of equations. First, you can add the two equations together and cancel out one of the variables. In this case, you can see that there is no need to multiply one of the equations by a positive or negative number, as y and -y already cancel each other out. The second way is to solve for one of the variables, then substitute that value into the other equation to solve for the other variable. In this case, I will show how to add both equations together to solve for x and y since the equations as they are cancel the y variable out.
after adding the two equations, the result is:
(note how the y variable eliminated itself)
Now just divide both sides by 7 to solve for x:
now just plug in the value of x into either equation to solve for y.
Let's pick the top equation:
now subtract 4 from each side to solve for y:
You can check your answers by plugging them into either equation, and since they are equations, both sides will be equal if your answers are correct.
There are two ways to solve for x and y in this pair of equations. First, you can add the two equations together and cancel out one of the variables. In this case, you can see that there is no need to multiply one of the equations by a positive or negative number, as y and -y already cancel each other out. The second way is to solve for one of the variables, then substitute that value into the other equation to solve for the other variable. In this case, I will show how to add both equations together to solve for x and y since the equations as they are cancel the y variable out.
after adding the two equations, the result is:
(note how the y variable eliminated itself)
Now just divide both sides by 7 to solve for x:
now just plug in the value of x into either equation to solve for y.
Let's pick the top equation:
now subtract 4 from each side to solve for y:
You can check your answers by plugging them into either equation, and since they are equations, both sides will be equal if your answers are correct.
Compare your answer with the correct one above
Solve for x and y in the following pair of equations
Solve for x and y in the following pair of equations
There are two ways to solve for x and y in this pair of equations. First, you can add the two equations together and cancel out one of the variables. In this case, you can see that there is no need to multiply one of the equations by a positive or negative number, as 2y and -2y already cancel each other out. The second way is to solve for one of the variables, then substitute that value into the other equation to solve for the other variable. In this case, I will show how to add both equations together to solve for x and y since the equations as they are cancel the y variable out.
You can see how adding the two equations cancel the y variable.
now just divide both sides by four to solve for x:
now just plug the value of x into either equation to solve for y.
Let's pick the top equation:
now subtract 1 from each side to isolate y:
now divide both sides by two to solve for y:
You can check your answers by plugging them into either equation, and since they are equations, both sides will be equal if the answers are correct.
There are two ways to solve for x and y in this pair of equations. First, you can add the two equations together and cancel out one of the variables. In this case, you can see that there is no need to multiply one of the equations by a positive or negative number, as 2y and -2y already cancel each other out. The second way is to solve for one of the variables, then substitute that value into the other equation to solve for the other variable. In this case, I will show how to add both equations together to solve for x and y since the equations as they are cancel the y variable out.
You can see how adding the two equations cancel the y variable.
now just divide both sides by four to solve for x:
now just plug the value of x into either equation to solve for y.
Let's pick the top equation:
now subtract 1 from each side to isolate y:
now divide both sides by two to solve for y:
You can check your answers by plugging them into either equation, and since they are equations, both sides will be equal if the answers are correct.
Compare your answer with the correct one above
Solve for x and y in the following pair of equations
Solve for x and y in the following pair of equations
There are two ways to solve for x and y in a pair of equations. First, you can combine (add) the two equations together and eliminate one variable. In this case, that would require multiplying the top equation by -2 in order to eliminate the x variable, since 4x and -4x will cancel out, making it able to solve for y. The second method is to solve for one of the variables, then plug in its value into the other equation. Let's do this method for this problem. First, let's solve for x for the top equation:
First, isolate x by adding 2y to both sides:
Now divide both sides by -2 to solve for x:
So now, plug in this value into the other (bottom) equation to solve for y:
now add 24 to both sides to isolate y:
now just divide both sides by 7 to solve for y:
now plug in the value of y into either equation to solve for x:
Let's pick the top equation:
now add two to both sides to isolate x:
now divide both sides by -2 to solve for x:
You can check your answers by plugging them into either equation, and since it's an equation, both sides will be equal if your answers are correct.
There are two ways to solve for x and y in a pair of equations. First, you can combine (add) the two equations together and eliminate one variable. In this case, that would require multiplying the top equation by -2 in order to eliminate the x variable, since 4x and -4x will cancel out, making it able to solve for y. The second method is to solve for one of the variables, then plug in its value into the other equation. Let's do this method for this problem. First, let's solve for x for the top equation:
First, isolate x by adding 2y to both sides:
Now divide both sides by -2 to solve for x:
So now, plug in this value into the other (bottom) equation to solve for y:
now add 24 to both sides to isolate y:
now just divide both sides by 7 to solve for y:
now plug in the value of y into either equation to solve for x:
Let's pick the top equation:
now add two to both sides to isolate x:
now divide both sides by -2 to solve for x:
You can check your answers by plugging them into either equation, and since it's an equation, both sides will be equal if your answers are correct.
Compare your answer with the correct one above
Solve for x and y in the following pair of equations
Solve for x and y in the following pair of equations
There are two ways to solve for x and y in a pair of equations. One way is to combine (add) the two equations together in order to eliminate one variable. In this case, to solve for y, you would have to multiply the top equation by -7 in order to negate the y variables. We will choose the second way, which is to solve for one of the variables then plug in that value into the other equation to solve for the other variable. If you look at both equations, solving for y on the top equation is easiest, so let's do that:
now just add 3x to both sides to solve for y:
now plug this value into the other (bottom) equation to solve for x:
now subtract 14 to both sides to isolate x:
now just divide both sides by 28 to solve for x:
now just plug in the value of x into either equation to solve for y.
Let's pick the top equation:
now just add 3 to both sides to solve for y:
You can check your answers by plugging them into either equation, and since they are equations, if both sides are equal, then you have the correct answers.
There are two ways to solve for x and y in a pair of equations. One way is to combine (add) the two equations together in order to eliminate one variable. In this case, to solve for y, you would have to multiply the top equation by -7 in order to negate the y variables. We will choose the second way, which is to solve for one of the variables then plug in that value into the other equation to solve for the other variable. If you look at both equations, solving for y on the top equation is easiest, so let's do that:
now just add 3x to both sides to solve for y:
now plug this value into the other (bottom) equation to solve for x:
now subtract 14 to both sides to isolate x:
now just divide both sides by 28 to solve for x:
now just plug in the value of x into either equation to solve for y.
Let's pick the top equation:
now just add 3 to both sides to solve for y:
You can check your answers by plugging them into either equation, and since they are equations, if both sides are equal, then you have the correct answers.
Compare your answer with the correct one above
Solve for x: 
Solve for x:
Multiply the first equation by two.
Add both equations to cancel out the y-variable.
Divide by three on both sides.
The answer is: 
Multiply the first equation by two.
Add both equations to cancel out the y-variable.
Divide by three on both sides.
The answer is:
Compare your answer with the correct one above