Arranging Numbers on a Derivatives Graph: Explanation and Help

AI Thread Summary
The discussion focuses on arranging specific values related to a function's graph in increasing order. The values include 0, the derivative f'(2), the difference f(3) - f(2), and the average slope 1/2[f(4) - f(2)]. It concludes that 0 is the smallest value due to its position on an asymptote, while the other values are positive and represent slopes that increase gradually. The reasoning emphasizes that f(3) - f(2) and 1/2[f(4) - f(2)] are slightly less than f'(2), confirming the order. Understanding the behavior of the function's graph is essential for this arrangement.
neik
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Help me please! :confused:

graph.png


For the function f whose graph is given, arrange the following numbers in increasing order and explain why:
  • 0
  • f'(2)
  • f(3) - f(2)
  • 1/2[f(4) - f(2)]
 
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0 is undefined...on an asymptote

out of f'(2), f(3) - f(2) and 1/2[f(4) - f(2)]

increasing order:

1/2[f(4) - f(2)]
f(3) - f(2)
f'(2)
 
but why? :confused:
 
a. 0
b. f'(2)
c. f(3) - f(2)
d. 1/2[f(4) - f(2)]

0 is the smallest and I'll explain why in a second.
f(3) - f(2) can be rewritten as (f(3) - f(2)) / (3-2). This slope is only a tiny fraction smaller than b because if you notice the slope is gradually decreasing as x gets larger. 1/2(f(4)-f(2)) can be rewritten as (f(4)-f(2))/(4-2). This looks like the average slope over that interval which you will notice was slightly less than c (which is in turn slightly less than b)

b, c, and d are positive though because the graph increases from 0-infinity apparently so a is the smallest. Ok I pretty much did all the work for you whoops.
 
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