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Solve the problem.

Joey borrows [tex]$\$[/tex] 2400[tex]$ from his grandfather and pays the money back in monthly payments of $[/tex]\[tex]$ 200$[/tex].

a. Write a linear function that represents the remaining money owed [tex]$L(x)$[/tex] after [tex]$x$[/tex] months.

b. Evaluate [tex]$L(10)$[/tex] and interpret the meaning in the context of this problem.

Select one:

A.
a. [tex]$L(x)=-200x+2400$[/tex];
b. [tex]$L(10)=400$[/tex]. This represents the amount Joey still owes his grandfather after 10 months.

B.
a. [tex]$L(x)=200x+2400$[/tex];
b. [tex]$L(10)=4400$[/tex]. This represents the amount Joey still owes his grandfather after 10 months.

C.
a. [tex]$L(x)=-200x+2400$[/tex];
b. [tex]$L(10)=400$[/tex]. This represents the amount Joey has paid his grandfather after 10 months.

D.
a. [tex]$L(x)=200x+2400$[/tex];
b. [tex]$L(10)=4400$[/tex]. This represents the amount Joey has paid his grandfather after 10 months.

Sagot :

GinnyAnsweridn
Let's break down the problem step-by-step:

a. We need to write a linear function that represents the remaining money owed [tex]\( L(x) \)[/tex] after [tex]\( x \)[/tex] months. Joey borrows [tex]$2400 from his grandfather and pays back $[/tex]200 monthly.

To create the linear function:
- The initial amount borrowed is [tex]$2400. - Each month, $[/tex]200 is paid back, which decreases the amount owed.

Thus, the function [tex]\( L(x) \)[/tex] can be written as:
[tex]\[ L(x) = 2400 - 200x \][/tex]

This represents that each month [tex]\( x \)[/tex], the remaining amount decreases by [tex]$200. b. Now, we need to evaluate \( L(10) \) and interpret its meaning. Substitute \( x = 10 \) into the linear function: \[ L(10) = 2400 - 200 \times 10 \] \[ L(10) = 2400 - 2000 \] \[ L(10) = 400 \] This result means that after 10 months, Joey still owes $[/tex]400 to his grandfather.

Now, let's look at the options provided:

a.
[tex]\[ \begin{aligned} a. & \enspace L(x) = -200x + 2400; \\ b. & \enspace L(10) = 400 \text{, This represents the amount Joey has paid his grandfather after 10 months}. \end{aligned} \][/tex]

b.
[tex]\[ \begin{aligned} a. & \enspace L(x) = 200x + 2400; \\ b. & \enspace L(10) = 4400 \text{. This represents the amount Joey still owes his grandfather after 10 months}. \end{aligned} \][/tex]

c.
[tex]\[ \begin{aligned} a. & \enspace L(x) = -200x + 2400; \\ b. & \enspace L(10) = 400 \text{. This represents the amount Joey still owes his grandfather after 10 months}. \end{aligned} \][/tex]

d.
[tex]\[ \begin{aligned} a. & \enspace L(x) = 200x + 2400; \\ b. & \enspace L(10) = 4400\text{, This represents the amount Joey has paid his grandfather after 10 months}. \end{aligned} \][/tex]

From our solutions:
- The correct function is [tex]\( L(x) = -200x + 2400 \)[/tex].
- The correct interpretation of [tex]\( L(10) = 400 \)[/tex] is the amount Joey still owes his grandfather after 10 months.

Therefore, the correct choice is:

c.
[tex]\[ \begin{aligned} a. & \enspace L(x) = -200x + 2400; \\ b. & \enspace L(10) = 400\text{. This represents the amount Joey still owes his grandfather after 10 months}. \end{aligned} \][/tex]
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