Orthogonal and Orthonormal Sets In Exercises 1-12, (a) determine whether the set of vectors in R n is orthogonal, (b) if the set is orthogonal, then determine whether it is also orthonormal, and (c) determine whether the set is a basis for R n . { ( − 3 , 5 ) , ( 4 , 0 ) }
Orthogonal and Orthonormal Sets In Exercises 1-12, (a) determine whether the set of vectors in R n is orthogonal, (b) if the set is orthogonal, then determine whether it is also orthonormal, and (c) determine whether the set is a basis for R n . { ( − 3 , 5 ) , ( 4 , 0 ) }
Solution Summary: The author explains that the set of vectors (-3,5), (4,0 )recht is not orthogonal.
Orthogonal and Orthonormal Sets In Exercises 1-12, (a) determine whether the set of vectors in
R
n
is orthogonal, (b) if the set is orthogonal, then determine whether it is also orthonormal, and (c) determine whether the set is a basis for
R
n
.
{
(
−
3
,
5
)
,
(
4
,
0
)
}
Quantities that have magnitude and direction but not position. Some examples of vectors are velocity, displacement, acceleration, and force. They are sometimes called Euclidean or spatial vectors.
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