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Question

A coordinate plane shows an increasing solid curve and a dotted straight line plotted on it, corresponding to two functions.

Marshall is comparing the growth rates of  f(x)=6⋅1.5x  and  g(x)=5x+10  using this graph. Based on the graph, he concludes that the growth rate of  g(x)=5x+10  is always greater than the growth rate of  f(x)=6⋅1.5x . Where is his mistake?

(1 point)
Responses

Marshall is only considering a small portion of the domains of the functions. If he went farther to the left on the graph, he would observe that the growth rate of f(x)=6⋅1.5x eventually surpasses the growth rate of g(x)=5x+10 for negative values of x. 
Marshall is only considering a small portion of the domains of the functions. If he went farther to the left on the graph, he would observe that the growth rate of  f left parenthesis x right parenthesis equals 6 times 1.5 superscript x baseline  eventually surpasses the growth rate of  g left parenthesis x right parenthesis equals 5 x plus 10  for negative values of x .

Marshall is only considering a small portion of the domains of the functions. If he went farther to the right on the graph, he would observe that the growth rate of f(x)=6⋅1.5x eventually surpasses the growth rate of g(x)=5x+10 for large values of x.
Marshall is only considering a small portion of the domains of the functions. If he went farther to the right on the graph, he would observe that the growth rate of  f left parenthesis x right parenthesis equals 6 times 1.5 superscript x baseline  eventually surpasses the growth rate of  g left parenthesis x right parenthesis equals 5 x plus 10  for large values of x .

The growth rate of g(x)=5x+10 is only greater than the growth rate of f(x)=6⋅1.5x when x is greater than approximately −1.3. 
The growth rate of  g left parenthesis x right parenthesis equals 5 x plus 10  is only greater than the growth rate of  f left parenthesis x right parenthesis equals 6 times 1.5 superscript x baseline  when x is greater than approximately negative 1.3 .

Marshall has it backward. The growth rate of f(x)=6⋅1.5x is always greater than the growth rate of g(x)=5x+10.
Marshall has it backward. The growth rate of  f left parenthesis x right parenthesis equals 6 times 1.5 superscript x baseline  is always greater than the growth rate of  g left parenthesis x right parenthesis equals 5 x plus 10 .
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GPT-4o mini · Answer

The correct response is: **Marshall is only considering a small portion of the domains of the functions. If he went farther to the right on the graph, he would observe that the growth rate of f(x)=6⋅1.5^x eventually surpasses the growth rate of g(x)=5x+10 for large values of x.** This is because exponential functions, like f(x)=6⋅1.5^x, typically outgrow linear functions, like g(x)=5x+10, as x becomes large. Marshall's conclusion is based on a limited view of the graph, which may not reflect the long-term behavior of the functions.