You graph the function f(x) 300(1.015)", which gives the total amount in your account after x years of interest that is compounded annually. The function g(x) gives the amount in your account if you make the same initial investment, but at a rate of interest of 1.3% compounded annually. How would the graph of g(x) compare to the graph of f(x)? - It would have a greater y-intercept and rise more quickly over time. It would have the same y-intercept, but rise less quickly over time.
You graph the function f(x) 300(1.015)", which gives the total amount in your account after x years of interest that is compounded annually. The function g(x) gives the amount in your account if you make the same initial investment, but at a rate of interest of 1.3% compounded annually. How would the graph of g(x) compare to the graph of f(x)? - It would have a greater y-intercept and rise more quickly over time. It would have the same y-intercept, but rise less quickly over time.
Algebra and Trigonometry (6th Edition)
6th Edition
ISBN:9780134463216
Author:Robert F. Blitzer
Publisher:Robert F. Blitzer
ChapterP: Prerequisites: Fundamental Concepts Of Algebra
Section: Chapter Questions
Problem 1MCCP: In Exercises 1-25, simplify the given expression or perform the indicated operation (and simplify,...
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Transcribed Image Text:You graph the function f(x) = 300(1.015), which gives the total amount in
your account after x years of interest that is compounded annually. The function g(x)
gives the amount in your account if you make the same initial investment, but at a
rate of interest of 1.3% compounded annually. How would the graph of g(x) compare
to the graph of f(x)?
It would have a greater y-intercept and rise more quickly over time.
It would have the same y-intercept, but rise less quickly over time.
It would have the same y-intercept, but rise more quickly over time.
It would have a greater y-intercept and rise less quickly over time.
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