h Let u = and v= Show that is in Span {u,v) for all h and k. How can it be shown that a vector b is in Span {u,v}? A. Determine if the system containing u, v, and b is consistent. If the system is consistent, b might be in Span (u,v). B. Determine if the system containing u, v, and b is consistent. If the system is consistent, then b is not in Span {u,v). C. Determine if the system containing u, v, and b is consistent. If the system is consistent, then b is in Span {u,v). O D. Determine if the system containing u, v, and b is consistent. If the system is inconsistent, then b is in Span (u,v). h Find the augmented matrix [u v b]. k Let b =
h Let u = and v= Show that is in Span {u,v) for all h and k. How can it be shown that a vector b is in Span {u,v}? A. Determine if the system containing u, v, and b is consistent. If the system is consistent, b might be in Span (u,v). B. Determine if the system containing u, v, and b is consistent. If the system is consistent, then b is not in Span {u,v). C. Determine if the system containing u, v, and b is consistent. If the system is consistent, then b is in Span {u,v). O D. Determine if the system containing u, v, and b is consistent. If the system is inconsistent, then b is in Span (u,v). h Find the augmented matrix [u v b]. k Let b =
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter8: Applications Of Trigonometry
Section8.4: The Dot Product
Problem 45E
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