Vector dot product problem?

To my understanding...

a . b = |a| |b| cos(theta)

Where "a" and "b" are both vectors and theta is the angle between them.

My question:

My teacher defined the vector dot product as the vector "a" multiplied by the projection of vector "b" onto "a".

The projection of "b" is a vector, and "a" is a vector, so why is the product not a vector?

Update:

"that's the definition" is not an answer.

Comments

  • Quote:

    "My teacher defined the vector dot product as the vector "a" multiplied by the projection of vector "b" onto "a".

    The projection of "b" is a vector, and "a" is a vector, so why is the product not a vector?"

    I would say the definition as given by your teacher is a bit off. The dot product is the MAGNITUDE of the vector "a" multiplied by the MAGNITUDE of the projection of vector "b" onto "a".

    Imagine drawing a dashed line perpendicular from "b" to the tip of "a". Now you have a right triangle formed where the projection of "b" is one of the legs. How do you find the length of a leg in a right triangle? You multiply the hypotenuse by the cos of the angle (which is equal to |b|*cos(theta)).

    So... what all those words end up looking like in math.

    a.b = |a|*|b|*cos(theta)

    where |a| is a scalar and |b|*cos(theta), is a scalar.

    So, I think you are asking a good question, because if you quoted the instructor correctly, his/her terminology was a bit off. Any more depth needed, let me know.

  • By DEFINITION where a and b are VECTORS and IaI and IbI are SCALARS and Ó¨ is angle between a and b :-

    a • b = i a I I b I cos Ó¨

    Everything on R H S is a scalar quantity thus a • b is a SCALAR PRODUCT. and is defined as such.

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