Linear Algebra Problem 2: Decide for the following sets of vectors whether they are linear independant,...
linear algebra- Linear independence Problems 1. Show that the following sets of vectors in R" are linearly dependent: U = (-1,2,4) and V = (5.-10,--20) in R. (b) U = (3,-1), V =(4,5) and W = (-4,7) in R2. 2. Are the following sets of vectors in R3 linearly independent or linearly dependent? Show work. (-3,0,4), (5,-1, 2) and (1, 1,3) (b) (-2,0,1), (3, 2,5), (6,-1,1) and (7,0,-2)
I am not sure where to start on this linear algebra question. The set of vectors for part a is these ones: 216 131 6. (a) [2] Is the set of vectors in Question 5 (b) a spanning set for R3? (b) [5] Let 01 U2 and vz Find (with justification) a vector w R4 such that w¢ Span何,v2, v3} (c) [3 In (b), is the set {oi,T2, T, a basis for R4? Justify your answer.
Determine whether the set of vectors is a basis for R3. Given the set of vectors decide which of the following statements is true: A: Set is linearly independent and spans R3. Set is a basis for R3. B: Set is linearly independent but does not span R3. Set is not a basis for R3. C: Set spans R3 but is not linearly independent. Set is not a basis for R3. D: Set is not linearly independent and does not...
need help on this. Thanks in advance Question 7 Determine whether the set of vectors is a basis for R3. s{{JAMA). Given the set of vectors decide which of the following statements is true: A: Set is linearly independent and spans R. Set is a basis for R. B: Set is linearly independent but does not span R3. Set is not a basis for R. C: Set spans R3 but is not linearly independent. Set is not a basis for...
Linear Algebra 12. Find a set of 3 vectors that provides a basis for Rz. Show how you came up with them or show how you know they do provide a basis, don't use elementary vectors
Question 7 Determine whether the set of vectors is a basis for R? s{{JAMA}.d Given the set of vectors decide which of the following statements is true: A: Set is linearly independent and spans R. Set is a basis for R. B: Set is linearly independent but does not span R3. Set is not a basis for Rs. C: Set spans R but is not linearly independent. Set is not a basis for R. D: Set is not linearly independent...
Linear Algebra Check whether the following maps are linear. Determine, in the cases that the map is linear, the null space and the range and verify the dimension theorem 1 a. A: R2R2 defined by A(r1, r2r2, xi), b. A: R2R defined by A(z,2)2 c. A: Сз-+ C2 defined by A(21,T2, x3)-(a + iT2,0), d. A: R3-R2 defined by A(r, r2, r3) (r3l,0), C 1
1) Decide whether or not the set S of vectors in R3 actually spans R3. If S does not span R find a specific vector int R3 not in the span ()0)0
linear algebra -Answer the following question: If S ={ ui, U2, U3} is a set of vectors in the vector space R', where új =(2,0,1), uz =(0,1,0), and uz =(-2,0,0). i) Determine whether the vector v=(2,4,2) is a linear combination of uı, U2 and uz or not. ii) Show that the set S is a spanning set for R or not. Why? iii) Is the set S linearly independent in R? iv) Determine whether S is basis for R' or...
Hello, I need help solving this linear algebra problem. 1. Let L be the set of all linear transforms from R3 to R2. (a) Verify that L is a vector space. (b) Determine the dimension of L and give a basis for L.