MathQuest: Linear Algebra

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MathQuest: Linear Algebra Linear Independence. True or False The following vectors are linearly independent: (,0,0), (0,0,2), (3,0,) 2. Which set of vectors is linearly independent? (a) (2,3),(8,2) (b) (,2,3),(,5,6),(7,8,9) (c) ( 3,,0),(,5,2),(,6,2) (d) None of these sets are linearly independent. (e) Exactly two of these sets are linearly independent. (f) All of these sets are linearly independent. 3. Which subsets of the set of the vectors shown below are linearly dependent? (a) u,w (b) t,w (c) t,v (d) t,u,v

(e) None of these sets are linearly dependent. (f) More than one of these sets is linearly dependent.. Suppose you wish to determine whether a set of vectors is linearly independent. You form a matrix with those vectors as the columns, and you calculate its reduced row 0 0 echelon form, R = 0 0 0 0 2. What do you decide? (a) These vectors are linearly independent. (b) These vectors are not linearly independent. 5. Suppose you wish to determine whether a set of vectors {v,v 2,v 3,v } is linearly independent. A = [v v 2 v 3 v ], and you calculate its reduced row 0 2 echelon form, R = 0 3. You now decide to write v as a linear combination of v,v 2, and v 3. Which is a correct linear combination? (a) v = v +v 2 (b) v = v 2v 3 (c) v cannot be written as a linear combination of v,v 2, and v 3. (d) We cannot determine the linear combination from this information. 6. Suppose you wish to determine whether a set of vectors {v,v 2,v 3,v } is linearly independent. A = [v v 2 v 3 v ], and you calculate its reduced row 0 2 echelon form, R = 0 3. You now decide to write v 3 as a linear combination of v,v 2, and v. Which is a correct linear combination? (a) v 3 = (/2)v (/2)v (b) v 3 = (/2)v +(/3)v 2 (c) v 3 = 2v +3v 2 (d) v 3 = 2v 3v 2 (e) v 3 cannot be written as a linear combination of v,v 2, and v. (f) We cannot determine the linear combination from this information. 2

7. Suppose you wish to determine whether a set of vectors {v,v 2,v 3,v } is linearly independent. A = [v v 2 v 3 v ], and you calculate its reduced row 0 2 echelon form, R = 0 3. You now decide to write v 2 as a linear combination of v,v 3, and v. Which is a correct linear combination? (a) v 2 = 3v 3 +v (b) v 2 = 3v 3 v (c) v 2 = v 3v 3 (d) v 2 = v +v (e) v 2 cannot be written as a linear combination of v,v 3, and v. (f) We cannot determine the linear combination from this information. 8. Are the vectors 5 2 3 0 2 3 7 9 linearly independent? (a) Yes, they are linearly independent. (b) No, they are not linearly independent. 9. To determine whether a set of n vectors from R n is independent, we can form a matrix A whose columns are the vectors in the set and then put that matrix in reduced row echelon form. If the vectors are linearly independent, what will we see in the reduced row echelon form? (a) A row of all zeros. (b) A row that has all zeros except in the last position. (c) A column of all zeros. (d) An identity matrix. 0. To determine whether a set of fewer than n vectors from R n is independent, we can form a matrix A whose columns are the vectors in the set and then put that matrix in reduced row echelon form. If the vectors are linearly independent, what will we see in the reduced row echelon form? (a) An identity submatrix with zeros below it. (b) A row that has all zeros except in the last position. 3

(c) A column that is not an identity matrix column. (d) A column of all zeros.. If the columns of A are not linearly independent, how many solutions are there to the system Ax = 0? (a) 0 (b) (c) infinite (d) Not enough information is given. 2. True or False A set of vectors from R 3 could be linearly independent. 3. True or False A set of 2 vectors from R 3 must be linearly independent.. True or False A set of 3 vectors from R 3 could be linearly independent. 5. True or False A set of 5 vectors from R could be linearly independent.

6. Which statement is equivalent to saying that v,v 2, and v 3 are linearly independent vectors? (a) The only solution to c v +c 2 v 2 +c 3 v 3 = 0 is c = c 2 = c 3 = 0. (b) v 3 cannot be written as a linear combination of v and v 2. (c) No vector is a multiple of any other. (d) Exactly two of (a), (b), and (c) are true. (e) All three statements are true. 5

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