Vector Squared: Solving for c in (a + b)^2 = c with Vectors

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Homework Help Overview

The discussion revolves around the expression (a + b)^2 = c, where a and b are vectors. Participants are exploring the implications of this equation in the context of vector mathematics and its relation to scalar quantities.

Discussion Character

  • Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • The original poster questions whether c should be expressed as a^2 + 2(a . b) + b^2 or as a^2 + b^2 + 2ab, considering the nature of vectors and scalars. Other participants discuss the dot product and the geometric interpretation involving the angle between vectors.

Discussion Status

Participants are engaging in clarifying the mathematical representation of the expression and its components. There is acknowledgment of the context of the question, with some noting the distinction between advanced physics and precalculus mathematics.

Contextual Notes

There is a mention that the question is not categorized under typical homework but rather in a precalculus context, which may influence the level of detail and complexity expected in the discussion.

MadMax
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If I have (a + b)^2 = c, where a and b are vectors, is c = a^2 + 2(a . b) + b^2, or simply is c=a^2 +b^2 + 2ab?

My motivation behind considering the former is that q^2 = q.q, however my motivation behind considering the latter is that if I have q^2=c then it does not matter whether q ia a vector or not, c is the same...

:/
 
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Yes the a b should be dot product.

|a|*|b|cos(w) w is angle between a and b.

so: c = (a + b) ^2 = [a|^2 + |b|^2 + 2|a|*|b|cos(w)
 
thanks malawi :)
 
Last edited:
np good luck!

ps. this is not a home work question in "Advanced physics" , but in precalclus maths hehe
 
Oh yeah you are right, sorry about that. I didn't realize there was such a section in the forums :) thanks for the heads up.
 

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