proof all orthogonal sets are linearly independent

3. For each of the following statements, either provide a short proof that it is true...

3. For each of the following statements, either provide a short proof that it is true (or appeal to the definition) or provide a counterexample showing that it is false. (e) Any set containing the zero vector is linearly dependent. (f) Subsets of linearly dependent sets are linearly dependent. (g) Subsets of linearly independent sets are linearly independent. (h) The rank of a matrix is equal to the number of its nonzero columns.

Which of the following sets are linearly independent? A. { (1, 0) , (1, 1) ,...

Which of the following sets are linearly independent? A. { (1, 0) , (1, 1) , (1-1) } in R2 B. { (1, 1, 1), (1,-1, 1), (-1, 1, 1) } in R3 C. { 1 + x, x, 2 + 3x } in P2 D. { [1 1 , [1 1         0 0] , 0 1] } in M22 Select from the following: 1. Only A and C. 2. Only B. 3. Only D. 4. Only B and...

True or False. Explain. Every subset of a linearly independent set is linearly independent.

True or False. Explain. Every subset of a linearly independent set is linearly independent.

Show that v1 and v2 are Linearly independent, then v1+v2 and v1-v2 are linearly independent as...

Show that v1 and v2 are Linearly independent, then v1+v2 and v1-v2 are linearly independent as well.

Show whether the following vectors/functions form linearly independent sets: (a) 2 – 3x, x + 2x^2...

Show whether the following vectors/functions form linearly independent sets: (a) 2 – 3x, x + 2x^2 , – x^2 + x^3 (b) cos x, e^(–ix), 3 sin x (c) (i, 1, 2), (3, i, –2), (–7+i, 1–i, 6+2i)

Give an counter example or explain why those are false a) every linearly independent subset of...

Give an counter example or explain why those are false a) every linearly independent subset of a vector space V is a basis for V b) If S is a finite set of vectors of a vector space V and v ⊄span{S}, then S U{v} is linearly independent c) Given two sets of vectors S1 and S2, if span(S1) =Span(S2), then S1=S2 d) Every linearly dependent set contains the zero vector

Determine whether the given functions are linearly dependent or linearly independent. f1(t) = 4t − 7,...

Determine whether the given functions are linearly dependent or linearly independent. f1(t) = 4t − 7, f2(t) = t2 + 1, f3(t) = 6t2 − t, f4(t) = t2 + t + 1 linearly dependentlinearly independent    If they are linearly dependent, find a linear relation among them. (Use f1 for f1(t), f2 for f2(t), f3 for f3(t), and f4 for f4(t). Enter your answer in terms of f1, f2, f3, and f4. If the system is independent, enter INDEPENDENT.)

Let A be an m × n matrix with m ≥ n and linearly independent columns....

Let A be an m × n matrix with m ≥ n and linearly independent columns. Show that if z1, z2, . . . , zk is a set of linearly independent vectors in Rn, then Az1,Az2,...,Azk are linearly independent vectors in Rm.

Suppose v1, v2, . . . , vn is linearly independent in V and w ∈...

Suppose v1, v2, . . . , vn is linearly independent in V and w ∈ V . Show that v1, v2, . . . , vn, w is linearly independent if and only if w ∈/ Span(v1, v2, . . . , vn).

Show that S = {A1, ..., Ak} is linearly independent if and only if the following...

Show that S = {A1, ..., Ak} is linearly independent if and only if the following statement holds: (1) If ∑ k i=1 aiAi = 0, then ai = 0 for all i.