Turn in #2 is due Friday, Sept. 25, 2015!
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In number 1c on the turn-in is h(r) the same as h(x)?
ReplyDelete-Ari K
I believe so, that's what I used
DeleteTypo...
DeleteFor 1b, does anyone have any tips for finding g'(1.5)? I was considering just taking the average but I think that would be too simple.
ReplyDeleteHint: the estimate of the derivative would be the slope between two points
DeleteSydney Laub
Off of what Sydney said, I found the slope between two points by using m=(Y2-Y1)/(X2-X1).
Delete-Lizzy C.
1st hr
Can we use Theorem 2 in chapter 3 of the book: Intermediate Theorem for Derivatives?
ReplyDeleteSarah Mostofizadeh
on pg 110
DeleteWe have covered it in class, so yes.
DeleteFor Turn-In #3
ReplyDeleteI am not sure how to show that the condition for 1 iii is meet or not meet.
Sarah Mostofizadeh
I just proved that the slope was negative at a point, so however you would do that...
Delete-Rachel F
For 1d are we assuming n is greater than 1
ReplyDelete-Rachel F
I think that n must be greater than one because of one of the three conditions. (Hint: look at condition i and think about the domain)
DeleteSarah Mostofizadeh
I agree with Sarah :)
DeleteFor Turn-In #3
ReplyDeleteFor 1.c), do I prove that the function does not meet (iii) with two x values in the same function, which would show that f increases (or not), or is there a way to prove it for every following values. Like, to prove that it continuously increases from (0,4) with one equation, or value?
James Gruich
A single counter-example is enough to disprove a claim.
DeleteI've already had this question answered, but I posted it, or was about to, and I think I exited the page before it posted.
ReplyDeleteFor 5a, do you use one of the given's to find the time? I can get the derivative but I need time and can't see where to find it from what's given.
-James Gruich