Understanding Perpendicular Vector Components

AI Thread Summary
A vector with nonzero magnitude can have a component of zero length in the direction perpendicular to it. This is because the projection of the vector onto a line perpendicular to it will always yield zero. Visualizing this can be aided by considering the Cartesian plane, where one can draw a vector and its perpendicular counterpart. When analyzing the relationship between these vectors, the sum of the components will equal the original vector. Understanding this concept is crucial for grasping vector decomposition and projections.
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"Is it possible for a vector that has nonzero magnitude to have a component in some direction that is equal to zero?"
The answer key said that any vector that has a nonzero magnitude will always have a component of zero length in the direction perpendicular to the vector.

I'm having trouble visualizing this. Why will the vector always have a component of zero length?
If anyone could break this down for me it would be much appreciated!
 
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Imagine a vector rising perpendicularly from a line (any given line). What's the projection of that vector onto the line?

An obvious analogy is the x-y axes of the Cartesian plane. How much "y" lies along the direction of "x"?
 
Draw a vector A on paper. Now, draw a vector B perpendicular to the A vector, both A and B have their startying ends together. Now draw a vector C from the tip of A to the tip of B. You obviously have C = A + B. How small does B have to be so that A = C?
 

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