Vectors A + B: Are Any of the Above True?

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The discussion revolves around the equation for the magnitude of the sum of two vectors, (A + B)^2 = A^2 + B^2. The initial assumption that either vector A or B must be zero is challenged, as the correct interpretation reveals that the equation holds true only if the dot product A·B equals zero. This condition can be satisfied if either vector is zero or if the vectors are perpendicular to each other, not just when one is zero. The conclusion drawn is that none of the provided options accurately describe the conditions under which the equation is valid. Therefore, the correct answer is that none of the options (a-e) are true.
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Homework Statement



If magnitude (absolute value) of vectors ( A + B ) ^2 = A^2 + B^2 then:
a) A and B must be parallel and in the same direction
b) A and B must be parallel and in opposite directions
c) it must be true that either A or B is zero
d) the angle between A and B must be 60 degrees
e) None of the above

I thought the answer was (c) just by foiling out the left side of the equation. but the answer is (e) none of the above, and I'd like an explanation as to why (c) is not correct.
 
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How, exactly, did you proceed? Could you elaborate?
 
After foiling the left side of the equation you get, A^2 + 2AB + B^2 = A^2 + B^2 so in order for that to be true, the middle term (2AB) must be zero which means either A, B, or both must be 0. Unless you're not allowed to foil out the equation in this scenario for some reason, I don't understand why my reasoning isn't correct.
 
Are A and B vectors? If so, considering an angle θ between them, is your formula for (A+B)2 valid?
 
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For a vector V=A+B, V^2=V*V where "*" is a dot product. ==>> (A+B)^2=A^2+2A*B +B^2 where A*B is a dot product. Thereby A*B=0 is the result you need, but that can be zero if A is zero, or B is zero, or if A is perpendicular to B.
 

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