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Domain and Range Constraints

A. Exponential Growth
B. Exponential Decay

[tex]\[
\begin{array}{c}
y=ab^x \\
y=ab^x+k
\end{array}
\][/tex]

1) An interior designer charges a \[tex]$100 fee, then \$[/tex]15 for each hour [tex]\(x\)[/tex] of their service.
[tex]\[ f(x) = 15x + 100 \][/tex]

2) The change in a bacteria's population [tex]\(P\)[/tex] over time [tex]\(t\)[/tex] can be modeled by one of the functions below:
A. [tex]\[ P(t) = 500(0.8)^t \][/tex]
B. [tex]\[ P(t) = 250(1.25)^t \][/tex]

Sagot :

GinnyAnsweridn
### Step-by-Step Solution

Let's address and solve the given problems one by one.

#### Problem 1: Interior Designer's Fee

The problem states that an interior designer charges a one-time initial fee of \[tex]$100 and then \$[/tex]15 for each hour of service.

The fee function is given by:
[tex]\[ f(x) = 15x + 100 \][/tex]

where [tex]\( x \)[/tex] is the number of hours of service.

The question does not specify any specific calculation for this function, but we have analyzed it numerically for [tex]\( x = 5 \)[/tex] hours.
1. The overall fee can be calculated as:
[tex]\[ f(5) = 15(5) + 100 = 75 + 100 = 175 \][/tex]

Thus, for [tex]\( x = 5 \)[/tex] hours, the total fee is \[tex]$175. #### Problem 2: Bacteria Population Change Two exponential functions model the population change of bacteria over time \( t \). 1. Exponential Decay: \[ A. \quad P(t) = 500(0.8)^t \] This represents a model where the bacteria population is decreasing over time. 2. Exponential Growth: \[ B. \quad P(t) = 250(1.25)^t \] This represents a model where the bacteria population is increasing over time. We need to examine these functions at \( t = 5 \) hours. - For the exponential decay model (\( P(t) = 500(0.8)^t \)): \[ P(5) = 500(0.8)^5 = 163.84 \] So, the bacteria population after 5 hours is approximately 163.84. - For the exponential growth model (\( P(t) = 250(1.25)^t \)): \[ P(5) = 250(1.25)^5 = 762.939453125 \] So, the bacteria population after 5 hours is approximately 762.94. ### Summary of Results - Interior Designer Fee: For \( x = 5 \) hours, the total fee is \$[/tex]175.

- Bacteria Population:
- Exponential Decay: After 5 hours, the population is [tex]\( 163.84 \)[/tex].
- Exponential Growth: After 5 hours, the population is [tex]\( 762.94 \)[/tex].

These values summarize the results of the given models for the specified scenarios.
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