Solve Complicated Algebra with Expert Help

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    Algebra
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Discussion Overview

The discussion revolves around simplifying a complex algebraic expression related to a problem involving the average speeds of tourists using a bike. Participants are attempting to clarify and verify the equivalence of different algebraic forms derived from the original expression.

Discussion Character

  • Mathematical reasoning
  • Debate/contested

Main Points Raised

  • One participant presents an algebraic expression that they are trying to simplify.
  • Another participant suggests a simplified form of the expression, indicating a desired outcome.
  • Some participants express skepticism about the equivalence of the original and proposed expressions, noting differences in their forms.
  • A later post introduces a context involving three tourists and their average speeds, which may influence the interpretation of the algebraic expressions.
  • There is a challenge regarding the accuracy of the simplifications and the relationships between the expressions presented.

Areas of Agreement / Disagreement

Participants do not appear to agree on the equivalence of the algebraic expressions, with multiple competing views on their simplifications and interpretations remaining unresolved.

Contextual Notes

The discussion includes assumptions about the algebraic manipulations and the context of the problem, which may not be fully articulated or agreed upon by all participants.

Brunno
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There's somebody who could help me solve this problem.It is from a very long resolution that i was trying to understand and this part i didn't get.




\frac{v_2+3v_1^2-2v_1v_2}{3v_2^2-3v_1^2-2v_2v_1}
 
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What i meant was simplify the algebra to this one:

\frac{v_2[3v_1+v_2]}{[v_1+3v_2]}
 
I don't think they are the same expression...
 
But it came from this:



\frac{2(v_1+v_2)-(v_2-v_1)}{(v_2-v_1)}* \frac{v_2-v_1}{2(v_1+v_2)+(v_2-v_1)}
 
That final expression does not equal either of the first two I don't think, though it simplifies to something similar to the second one (numerator is 3*v1 + v2), not v2*(3*v1 + v2).

Where are you quoting from? None of this follows to me.
 
It is from a old question:

Three tourists gathered in one place and having a bike that can carry only two people ever need to get to a tourist destination as quickly as possible.The A tourist A takes tourist B, cycle to a point x of the course and returns to tourist C as he was walking to find A. tourist B from x continues to walk his journey to the tourist center.
The three arrive simultaneously to the turistic centre.
A average speed v1 is as pedestrian and cyclist as v2 average speed that the tourists will the total route.
 

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