Discover the Power of Derivatives: A Comprehensive Guide for Traders

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SUMMARY

The discussion focuses on calculating the derivative of the function f(x) = [U(x)]³ + 2[V(x)]² using the chain rule. The values for U(x) and V(x) at x=2 are U(2)=3, V(2)=4, U'(2)=-1, and V'(2)=2. The correct derivative f '(2) is computed as f '(2) = 3[3]²(-1) + 4[4](2), resulting in f '(2) = 5. Participants confirm the correctness of the calculations and clarify that for f '(3), only values at x=3 should be used.

PREREQUISITES
  • Understanding of derivatives and differentiation rules, specifically the chain rule.
  • Familiarity with functions and their notation, particularly U(x) and V(x).
  • Basic knowledge of evaluating functions at specific points.
  • Ability to interpret and reconstruct data from tables.
NEXT STEPS
  • Learn advanced applications of the chain rule in calculus.
  • Explore the concept of implicit differentiation and its uses.
  • Study higher-order derivatives and their significance in function analysis.
  • Investigate the relationship between derivatives and graph behavior.
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Students studying calculus, mathematics educators, and traders seeking to understand the application of derivatives in financial modeling.

nyr
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Is this work right?...
 
Last edited:
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nyr said:
First a table is given (im gunna try to reconstruct it; the dashes represent spaces)

X ---U(x)--- V(x)--- U'(x)---- V'(x)
2----3--------4------(-1)-------2
3----2--------1--------3------(-1)
4----1--------3--------0-------(-2)

U(x) and V(x) are defined and differentiable for all real numbers x. the following data is known about U,V, and their derivatives.

Define f(x)=[U(x)]3+2[v(x)]2

Find f '(2)

_________________________________________________________________

My work below
I was able to use the chain rule to simply it. And so far I got
f '(x)=3[U(x)]2(U'(x)) + 4[V(x)][V'(x)]

This is where I'm not really to sure what to do.
I'm thinking you plug in the values from the table in here but I think I might be putting in the wrong values. Do I only use the values at x=2 because its asking for f '(2)?

f '(2)=3[3]2(-1) + 4[4](2)
f '(2)= -27+32
f '(2)=5

Is this work right?

Looks fine to me!
 
nyr said:
First a table is given (im gunna try to reconstruct it; the dashes represent spaces)

X ---U(x)--- V(x)--- U'(x)---- V'(x)
2----3--------4------(-1)-------2
3----2--------1--------3------(-1)
4----1--------3--------0-------(-2)

U(x) and V(x) are defined and differentiable for all real numbers x. the following data is known about U,V, and their derivatives.

Define f(x)=[U(x)]3+2[v(x)]2

Find f '(2)

_________________________________________________________________

My work below
I was able to use the chain rule to simply it. And so far I got
f '(x)=3[U(x)]2(U'(x)) + 4[V(x)][V'(x)]

This is where I'm not really to sure what to do.
I'm thinking you plug in the values from the table in here but I think I might be putting in the wrong values. Do I only use the values at x=2 because its asking for f '(2)?
Yes.
nyr said:
f '(2)=3[3]2(-1) + 4[4](2)
f '(2)= -27+32
f '(2)=5

Is this work right?
Yes. Good job!
 
Alright thanks guys!
So for example if it said f '(3) I would only use the x values at 3 which are [2,1,3,-1]?
 
nyr said:
Alright thanks guys!
So for example if it said f '(3) I would only use the x values at 3 which are [2,1,3,-1]?

What do _you_ think? You know the answer; you just need to be more confident.

RGV
 

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