Prove this: Given that V is a linearly dependent set of vectors, show that there exists...

Show that the set is linearly dependent by finding a nontrivial linear combination of vectors in...

Show that the set is linearly dependent by finding a nontrivial linear combination of vectors in the set whose sum is the zero vector. (Use s1, s2, and s3, respectively, for the vectors in the set.) S = {(5, 2), (−1, 1), (2, 0)} a) (0, 0) = b) Express the vector s1 in the set as a linear combination of the vectors s2 and s3. s1 =

If v1 and v2 are linearly independent vectors in vector space V, and u1, u2, and...

If v1 and v2 are linearly independent vectors in vector space V, and u1, u2, and u3 are each a linear combination of them, prove that {u1, u2, u3} is linearly dependent. Do NOT use the theorem which states, " If S = { v 1 , v 2 , . . . , v n } is a basis for a vector space V, then every set containing more than n vectors in V is linearly dependent." Prove without...

Let u, vand w be linearly dependent vectors in a vector space V. Prove that for...

Let u, vand w be linearly dependent vectors in a vector space V. Prove that for any vector z in V whatsoever, the vectors u, v, w and z are linearly dependent.

Prove that any set of vectors in R^n that contains the vector zero is linearly dependent.

Prove that any set of vectors in R^n that contains the vector zero is linearly dependent.

Prove that if a subset of a set of vectors is linearly dependent, then the entire...

Prove that if a subset of a set of vectors is linearly dependent, then the entire set is linearly dependent.

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.

Using a step by step proof format Please prove: Given that x is a vector in...

Using a step by step proof format Please prove: Given that x is a vector in the span of V, where V is a linearly independent set of vectors, show that there is ONLY ONE linear combination of the vectors in V that yields x. (Hint: to show that something is unique, assume that there is more than one such thing and show that this leads to a contradiction)

Let S={v1,...,Vn} be a linearly dependent set. Use the definition of linear independent / dependent to...

Let S={v1,...,Vn} be a linearly dependent set. Use the definition of linear independent / dependent to show that one vector in S can be expressed as a linear combination of other vectors in S. Please show all work.

Write each vector as a linear combination of the vectors in S. (Use s1 and s2,...

Write each vector as a linear combination of the vectors in S. (Use s1 and s2, respectively, for the vectors in the set. If not possible, enter IMPOSSIBLE.) S = {(1, 2, −2), (2, −1, 1)} (a)    z = (−5, −5, 5) z = ? (b)    v = (−2, −6, 6) v = ? (c)    w = (−1, −17, 17) w = ? Show that the set is linearly dependent by finding a nontrivial linear combination of vectors in the set whose sum...

1) Let S={v_1, ..., v_p} be a linearly dependent set of vectors in R^n. Explain why...

1) Let S={v_1, ..., v_p} be a linearly dependent set of vectors in R^n. Explain why it is the case that if v_1=0, then v_1 is a trivial combination of the other vectors in S. 2) Let S={(0,1,2),(8,8,16),(1,1,2)} be a set of column vectors in R^3. This set is linearly dependent. Label each vector in S with one of v_1, v_2, v_3 and find constants, c_1, c_2, c_3 such that c_1v_1+ c_2v_2+ c_3v_3=0. Further, identify the value j and v_j...