Tyler and Emma both track the number of miles they run each week. Tyler was already running 10 miles per week, and started running 2 more miles each week. Emma was already running 30 miles per week, and started running 3 less miles each week. Is there a time when they run the same number of miles each week?

Question

Tyler and Emma both track the number of miles they run each week. Tyler was already running 10 miles per week, and started running 2 more miles each week. Emma was already running 30 miles per week, and started running 3 less miles each week. Is there a time when they run the same number of miles each week?
The relationships between x, the number of weeks, and y, the number of miles Tyler and Emma run each week, are graphed on the coordinate plane below. What is the point of intersection?
Tyler
Emma
0
1
2
3
4
5
6
7
8
9
10
0
3
6
9
12
15
18
21
24
27
30
Time (weeks)
Number of miles
The point of intersection is ( 
, 
 ).
Good work!
Now that you have found the point of intersection, (4, 18), let’s check that work algebraically. The equations for the relationship between weeks and miles for Tyler and Emma are shown below. Since the number of miles Tyler runs will be equal to the number of miles Emma runs at the solution to this system, you can set the expression for the number of miles they each run, 10+2x and 30−3x, equal to one another. Do that now.
Tyler
Emma
0
1
2
3
4
5
6
7
8
9
10
0
3
6
9
12
15
18
21
24
27
30
Time (weeks)
Number of miles

10+2x
=	
30−3x
Good work!
Let’s solve the equation for x, the number of weeks when Tyler and Emma run the same number of miles, to confirm that it’s the same as the x-coordinate of the point of intersection. Since there are x terms on both sides of the equation, let’s get rid of the x term from one of the sides. What move can you make to get rid of the x term on the right side of the equation, 3x, while keeping the equation balanced?
Tyler’s miles = Emma's miles
10+2x = 30−3x

Add 3x to each side

Multiply each side by 3x

Subtract 3x from each side
You got it!
We can add 3x on both sides to get rid of the 3x on the right while keeping the equation balanced. Record adding 3x on both sides of the equation.
Tyler's miles
=
Emma's miles
 
10+2x
=
30−3x
+

3x
+

3x
Good work!
Add 3x on both sides and rewrite the equation to represent the remaining values.
Tyler's miles
=
Emma's miles
 
10+2x
=
30−3x
+
3x
+
3x
 
=

GPT-4o mini · Answer

Let's add $3x$ to both sides of the equation: Starting with: $$ 10 + 2x = 30 - 3x $$ We add $3x$ to both sides: $$ 10 + 2x + 3x = 30 - 3x + 3x $$ This simplifies to: $$ 10 + 5x = 30 $$ Now we can proceed to solve for $x$. To do that, we can subtract 10 from both sides: $$ 5x = 30 - 10 $$ This simplifies to: $$ 5x = 20 $$ Finally, we divide by 5: $$ x = \frac{20}{5} = 4 $$ Thus, $x = 4$, which confirms that in 4 weeks both Tyler and Emma run the same number of miles.