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Given two vectors, a and b, how do I find the Orthogonal Projection? I've already found the Scalar and Vector Projections. \begin{align*} \text{Scalar}&:\quad \frac{-90 + -25 + 24}{\sqrt{9^2+5^2+8^2}};\\ \text{Vector}&:\quad \left(\left(\frac{-91}{\sqrt{170}}\right)\left(\frac{-9}{\sqrt{170}}\right), \left(\frac{-91}{\sqrt{170}}\right)\left(\frac{-5}{\sqrt{170}}\right), \left(\frac{-91}{\sqrt{170}}\right)\left(\frac{8}{\sqrt{170}}\right)\right). \end{align*}

Here's the original question: Let a = (-4, -8, -4) and b = (-3, -2, 0) be vectors. Find the scalar, vector, and orthogonal projections of b onto a.

Thank you for your time and help.

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    Your question, as phrased, is nonsensical. Orthogonal projections are with respect to *something*; I suspect that you want the orthogonal projection **onto the plane the two vectors generate**. If so, then you need to state that.2011-01-31
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    P.S. Writing things like `+-25` is terribly bad form, and prone to errors when reading it later. I suggest you get in the habit of using parentheses, so you would write the numerator of the scalar as `-90+(-25)+24`.2011-01-31
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    If that's the case, then yes, I would like to know how to find the orthogonal projection onto the plane the two vectors generate.2011-01-31
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    @Math Student: If *what* is the case? Again: given that the question, as posed, is nonsensical, you should *edit* it so that it acquires sense. Don't rely on comments by others to clarify, especially when they (I) are only guessing at what it is you mean. If this is a problem from your textbook, and you are having trouble expressing it in your own words, by all means, provide a direct quotation (you can preface it with a `>` so that it shows up greyed out).2011-01-31
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    @Math Student: If you would like to edit your question you can click on the word "edit" in the bottom left corner of your question.2011-01-31
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    Arturo, please don't comment on my posts anymore unless you're not going to be condescending. I feel like you're either normally like that and you don't realize how your comments can be read, or you're peeved that I never give you best answer because your posts haven't been as helpful to me as others, and I didn't know how for a while. I don't know if you're like that to every user or just me. I got help from my professor in person, I'll revise the post soon so it will be more helpful to other members. Thank you for the comments.2011-02-01
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    I just realized I didn't include enough information -- now I see what you all were referring to. I edited my post.2011-02-01
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    @Math Student: I am not being condescending, I am trying to help you get the most out of this site. If you don't state your questions clearly, then it is difficult for anyone to answer them. At least half the time, the confusion will disappear if one can state the question in a clear and organized way. You'll note, for instance, that my guess as to what you were asked was in fact **wrong**: you were not asked to find the orthogonal projection onto the plane the two vectors they generate. And, no, I don't care who you select as "best answer", and you are welcome to never select me.2011-02-01
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    @Math Student: I'm not sure I understand what the difference is between "vector projection" and "orthogonal projection." The orthogonal projection of $b$ onto $a$ is a vector $ka$ parallel to $a$ such that $b-ka\perp a$. The magnitude (which is $|k|\cdot||a||$) is the scalar projection (which you already found), so it's just a question of the direction. How is that different from the "vector projection"?2011-02-01
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    @Math Student: I'm sure no one meant to be rude. It's difficult for a math beginner to get notation right. Don't worry, if you keep on practicing you'll improve your understanding.2011-02-01

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