Determine if the vectors v1= (3, 0, -3, 6), v2 = ( 0, 2, 3, 1),...

Do the vectors v1 =   1 2 3   , v2 = ...

Do the vectors v1 =   1 2 3   , v2 =   √ 3 √ 3 √ 3   , v3   √ 3 √ 5 √ 7   , v4 =   1 0 0   form a basis for R 3 ? Why or why not? (b) Let V ⊂ R 4 be the subspace spanned by the vectors a1 and a2, where a1 =   ...

(a) Do the vectors v1 = 1 2 3 , v2 = √ 3 √ 3...

(a) Do the vectors v1 = 1 2 3 , v2 = √ 3 √ 3 √ 3 , v3=√ 3 √ 5 √ 7, v4 = 1 0 0 form a basis for R 3 ? Why or why not? (b) Let V ⊂ R 4 be the subspace spanned by the vectors a1 and a2, where a1 = (1 0 −1 0) , a2 = 0 1 0 −1. Find a basis for the orthogonal complement V ⊥...

1. Prove that if {⃗v1, ⃗v2, ⃗v3} is a linear dependent set of vectors in V...

1. Prove that if {⃗v1, ⃗v2, ⃗v3} is a linear dependent set of vectors in V , and if ⃗v4 ∈ V , then {⃗v1, ⃗v2, ⃗v3, ⃗v4} is also a linear dependent set of vectors in V . 2. Prove that if {⃗v1,⃗v2,...,⃗vr} is a linear dependent set of vectors in V, and if⃗ vr + 1 ,⃗vr+2,...,⃗vn ∈V, then {⃗v1,⃗v2,...,⃗vn} is also a linear dependent set of vectors in V.

Determine all real numbers a for which the vectors v1 = (1,−1,1,a,2) v2 = (−1,0,0,1,0) v3...

Determine all real numbers a for which the vectors v1 = (1,−1,1,a,2) v2 = (−1,0,0,1,0) v3 = (1,2,a + 1,1,0) v4 = (2,0,a + 3,2a + 3,4) make a linearly independent set. For which values of a does the set contain at least three linearly independent vectors?

Exercise 6. Consider the following vectors in R3 . v1 = (1, −1, 0) v2 =...

Exercise 6. Consider the following vectors in R3 . v1 = (1, −1, 0) v2 = (3, 2, −1) v3 = (3, 5, −2 )   (a) Verify that the general vector u = (x, y, z) can be written as a linear combination of v1, v2, and v3. (Hint : The coefficients will be expressed as functions of the entries x, y and z of u.) Note : This shows that Span{v1, v2, v3} = R3 . (b) Can R3 be...

Problem 6.4 What does it mean to say that a set of vectors {v1, v2, ....

Problem 6.4 What does it mean to say that a set of vectors {v1, v2, . . . , vn} is linearly dependent? Given the following vectors show that {v1, v2, v3, v4} is linearly dependent. Is it possible to express v4 as a linear combination of the other vectors? If so, do this. If not, explain why not. What about the vector v3? Anthony, Martin. Linear Algebra: Concepts and Methods (p. 206). Cambridge University Press. Kindle Edition.

If S is the set of vectors in R^4 (S= {v1, v2, v3, v4, v5}) where,...

If S is the set of vectors in R^4 (S= {v1, v2, v3, v4, v5}) where, v1 = (1,2,-1,1), v2 = (-3,0,-4,3), v3 = (2,1,1,-1), v4 = (-3,3,-9,-6), v5 = (3,9,7,-6) Find a subset of S that is a basis for the span(S).

Are vectors [1,0,0,2,1], [0,1,0,1,−4], and [0,0,1,−1,−1], and [3,1,5,2,−6] linearly independent? Are vectors v1=[−16,1,−39], v2=[2,6,3] and v3=[3,1,7]...

Are vectors [1,0,0,2,1], [0,1,0,1,−4], and [0,0,1,−1,−1], and [3,1,5,2,−6] linearly independent? Are vectors v1=[−16,1,−39], v2=[2,6,3] and v3=[3,1,7] linearly independent?

If S=(v1,v2,v3,v4) is a linearly independent sequence of vectors in Rn then A) n = 4...

If S=(v1,v2,v3,v4) is a linearly independent sequence of vectors in Rn then A) n = 4 B) The matrix ( v1 v2 v3 v4) has a unique pivot column. C) S is a basis for Span(v1,v2,v3,v4)

Let {V1, V2,...,Vn} be a linearly independent set of vectors choosen from vector space V. Define...

Let {V1, V2,...,Vn} be a linearly independent set of vectors choosen from vector space V. Define w1=V1, w2= v1+v2, w3=v1+ v2+v3,..., wn=v1+v2+v3+...+vn. (a) Show that {w1, w2, w3...,wn} is a linearly independent set. (b) Can you include that {w1,w2,...,wn} is a basis for V? Why or why not?