تكلم مع الذكاء الاصطناعي
Deck 4: Vector Spaces
ملء الشاشة (f)
سؤال
Find the sum of the vectors 
and 
.
A)
B)
C)
D)
E)
and .A)
B)
C)
D)
E)
سؤال
Find the vector v for which 
given that 
and 
.
A)
B)
C)
D)
E)
given that and .A)
B)
C)
D)
E)
سؤال
Let 
, and 
. Find 
.
A)
B)
C)
D)
E)
, and . Find .A)
B)
C)
D)
E)
سؤال
Which of the following vectors is the scalar multiple of 
A)
B)
C)
D)
E)
A)
B)
C)
D)
E)
سؤال
Provided 
and 
, solve 
for w.
A)
B)
C)
D)
E)
and , solve for w.A)
B)
C)
D)
E)
سؤال
Provided that 
and 
, write 
as a linear combination of u and w, if possible.
A)
B)
C)
D)
E) It is not possible to write v as a linear combination of u and w.
and , write as a linear combination of u and w, if possible. A)
B)
C)
D)
E) It is not possible to write v as a linear combination of u and w.
سؤال
Provided 
and 
, find w such that 
.
A)
B)
C)
D)
E)
and , find w such that .A)
B)
C)
D)
E)
سؤال
Provided that 
and 
, write 
as a linear combination of 
, and 
, if possible.
A)
B)
C)
D)
E) It is not possible to write v as a linear combination of
, and 
.
and , write as a linear combination of , and , if possible.A)
B)
C)
D)
E) It is not possible to write v as a linear combination of
, and . سؤال
Provide that 
, and 
, write 
as a linear combination of 
, and 
, if possible.
A)
B)
C)
D)
E) It is not possible to write v as a linear combination of
, and 
.
, and , write as a linear combination of , and , if possible.A)
B)
C)
D)
E) It is not possible to write v as a linear combination of
, and . سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A) (0, 0, 0, 0, 0)
B) (0, 0, 0, 0)
C) (0, 0, 0, 0, 0, 0)
D) (0, 0)
E) (0, 0, 0)
.A) (0, 0, 0, 0, 0)
B) (0, 0, 0, 0)
C) (0, 0, 0, 0, 0, 0)
D) (0, 0)
E) (0, 0, 0)
سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A)
B)
C)
D)
E)
. A)
B)
C)
D)
E)
سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A)
B)
C)
D)
E)
. A)
B)
C)
D)
E)
سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A)
B)
C)
D)
E)
. A)
B)
C)
D)
E)
سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A)
B)
C)
D)
E)
. A)
B)
C)
D)
E)
سؤال
Describe the zero vector (the additive identity) of the vector space 
.
A)
B)
C)
D)
E)
. A)
B)
C)
D)
E)
سؤال
Determine whether the set, 
with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is a vector space. All ten vector space axioms hold.
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is a vector space. All ten vector space axioms hold.
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
سؤال
Determine whether the set of all first-degree polynomial functions as given below, whose graphs pass through the origin with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails. 
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
سؤال
Determine whether the set of all second-degree polynomial functions as given below, whose graphs pass through the origin with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails. 
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
سؤال
Determine whether the set of all third-degree polynomial functions as given below, whose graphs pass through the origin with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails. 
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
سؤال
Determine whether the set of all fourth-degree polynomial functions as given below, whose graphs pass through the origin with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails. 
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
سؤال
Determine whether the following set with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails. 
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
سؤال
Determine whether the following set with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
سؤال
Determine whether the following set with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails. 
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
سؤال
Determine whether the following set with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails. 
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
سؤال
Determine whether the set of all 
diagonal matrices with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is a vector space. All ten vector space axioms hold.
diagonal matrices with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is a vector space. All ten vector space axioms hold.
سؤال
Verify 
is a subspace of 
.
is a subspace of . سؤال
W is the set of all functions that are differentiable on 
. V is the set of all functions that are continuous on 
. Verify W is a subspace of V.
. V is the set of all functions that are continuous on . Verify W is a subspace of V. سؤال
the following subset of 
is a subspace of 
.The set of all nonnegative functions: 
is a subspace of .The set of all nonnegative functions: سؤال
the following subset of 
is a subspace of 
.The set of all nonpositive functions: 
is a subspace of .The set of all nonpositive functions: سؤال
the following subset of 
is a subspace of 
.The set of all positive functions: 
is a subspace of .The set of all positive functions: سؤال
the following subset of 
is a subspace of 
.The set of all negative functions: 
is a subspace of .The set of all negative functions: سؤال
the following subset of 
is a subspace of 
.The set of all zero functions: 
is a subspace of .The set of all zero functions: سؤال
the following subset of 
is a subspace of 
.The set of all constant functions: 
is a subspace of .The set of all constant functions: سؤال
The set of all functions such that 
is a subspace of 
.
is a subspace of . سؤال
The set of all 
lower triangular matrices is a subspace of 
.
lower triangular matrices is a subspace of . سؤال
The set of all 
singular matrices is a subspace of 
.
singular matrices is a subspace of . سؤال
? The set 
is a subspace of 
with the standard operations.
is a subspace of with the standard operations. سؤال
The set 
is a subspace of 
with the standard operations.
is a subspace of with the standard operations. سؤال
The set 
spans 
.
spans . سؤال
The set 
spans 
.
spans . سؤال
The set 
spans 
.
spans . سؤال
The set 
spans 
.
spans . سؤال
The set 
spans 
.
spans . سؤال
The set 
is linearly independent.
is linearly independent. سؤال
The set 
is linearly independent.
is linearly independent. سؤال
The set 
is linearly dependent. Express the first vector as a linear combination of the other two vectors.
A)
B)
C)
D)
E)
is linearly dependent. Express the first vector as a linear combination of the other two vectors.A)
B)
C)
D)
E)
سؤال
The set 
spans 
.
spans . سؤال
Write the standard basis for the vector space 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Write the standard basis for the vector space 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Write the standard basis for the vector space 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Write the standard basis for the vector space 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Write the standard basis for the vector space 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Explain why 
is not a basis for 
.
A) S is linearly independent and spans
B) S is linearly dependent and does not span
C) S is linearly independent and does not span
D) S is linearly dependent and spans
E) none of these choices
is not a basis for .A) S is linearly independent and spans
B) S is linearly dependent and does not span
C) S is linearly independent and does not span
D) S is linearly dependent and spans
E) none of these choices
سؤال
Explain why 
is not a basis for 
.
A) S is linearly independent and spans
B) S is linearly dependent and spans
C) S is linearly independent and does not span
D) S is linearly dependent and does not span
E) none of these choices
is not a basis for .A) S is linearly independent and spans
B) S is linearly dependent and spans
C) S is linearly independent and does not span
D) S is linearly dependent and does not span
E) none of these choices
سؤال
Explain why 
is not a basis for 
.
A) S is linearly independent and spans
B) S is linearly dependent and spans
C) S is linearly dependent and does not span
D) S is linearly independent and does not span
E) none of these choices
is not a basis for .A) S is linearly independent and spans
B) S is linearly dependent and spans
C) S is linearly dependent and does not span
D) S is linearly independent and does not span
E) none of these choices
سؤال
Explain why 
is not a basis for 
.
A) S is linearly dependent and does not span
B) S is linearly dependent and spans
C) S is linearly independent and spans
D) S is linearly independent and does not span
E) none of these choices
is not a basis for .A) S is linearly dependent and does not span
B) S is linearly dependent and spans
C) S is linearly independent and spans
D) S is linearly independent and does not span
E) none of these choices
سؤال
The set 
is a basis for 
.
is a basis for . سؤال
The set 
is a basis for 
.
is a basis for . سؤال
Determine whether 
is a basis for 
. If it is, write 
as a linear combination of the vectors in S.?
A) S is a basis for
and 
B) S is a basis for
and 
C) S is a basis for
and 
D) S is a basis for
and 
E) S is not a basis for
is a basis for . If it is, write as a linear combination of the vectors in S.?A) S is a basis for
and B) S is a basis for
and C) S is a basis for
and D) S is a basis for
and E) S is not a basis for
سؤال
Determine whether 
is a basis for 
. If it is, write 
as a linear combination of the vectors in S.?
A) S is a basis for
and 
B) S is a basis for
and ? 
C) S is a basis for
and 
D) S is a basis for
and 
E) S is not a basis for
is a basis for . If it is, write as a linear combination of the vectors in S.?A) S is a basis for
and B) S is a basis for
and ? C) S is a basis for
and D) S is a basis for
and E) S is not a basis for
سؤال
Determine whether 
is a basis for 
. If it is, write 
as a linear combination of the vectors in S.?
A) S is a basis for
and 
B) S is a basis for
and 
C) S is a basis for
and 
D) S is a basis for
and 
E) S is not a basis for
is a basis for . If it is, write as a linear combination of the vectors in S.?A) S is a basis for
and B) S is a basis for
and C) S is a basis for
and D) S is a basis for
and E) S is not a basis for
سؤال
Find a basis for the column space of the matrix 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Find a basis for the row space of a matrix 
.
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
سؤال
Find the rank of the matrix 
A) 2
B) 0
C) 4
D) 3
E) 1
A) 2
B) 0
C) 4
D) 3
E) 1
سؤال
Find a basis for the subspace of 
spanned by 
.
A)
B)
C)
D)
E)
spanned by .A)
B)
C)
D)
E)
سؤال
Find a basis for the subspace of 
spanned by 
.
A)
B)
C)
D)
E)
spanned by .A)
B)
C)
D)
E)
سؤال
Find a basis for and the dimension of the solution space of 
. 
A)
, dim = 1
B)
, dim = 3
C)
, dim = 1
D)
? , dim = 2
E)
, dim = 3
. A)
, dim = 1B)
, dim = 3C)
, dim = 1D)
? , dim = 2E)
, dim = 3 سؤال
Find a basis for the solution space of the following homogeneous system of linear equations. 
A)
B)
C)
D)
E)
A)
B)
C)
D)
E)
سؤال
Determine whether B is in the column space of A. If it is, write B as a linear combination of the column vectors of A..
A)
is in the column space of A and 
B)
is in the column space of A and 
C)
is in the column space of A and 
D)
does not belong to the column space of 
E) none of these choices
A)
is in the column space of A and B)
is in the column space of A and C)
is in the column space of A and D)
does not belong to the column space of E) none of these choices
سؤال
Given that 
, the coordinate matrix of x relative to a (nonstandard) basis 
find the coordinate vector of x relative to the standard basis in 
.
A)
B)
C)
D)
E)
, the coordinate matrix of x relative to a (nonstandard) basis find the coordinate vector of x relative to the standard basis in .A)
B)
C)
D)
E)
سؤال
Given that 
, the coordinate matrix of x relative to a (nonstandard) basis 
. Find the coordinate vector of x relative to the standard basis in 
.
A)
B)
C)
D)
E)
, the coordinate matrix of x relative to a (nonstandard) basis . Find the coordinate vector of x relative to the standard basis in .A)
B)
C)
D)
E)
سؤال
Given that 
, the coordinate matrix of x relative to a (nonstandard) basis 
. Find the coordinate vector of x relative to the standard basis in 
.
A)
B)
C)
D)
E)
, the coordinate matrix of x relative to a (nonstandard) basis . Find the coordinate vector of x relative to the standard basis in .A)
B)
C)
D)
E)
سؤال
Find the transition matrix from 
to 
.
A)
B)
C)
D)
E)
to .A)
B)
C)
D)
E)
سؤال
Find the coordinate matrix of 
in 
relative to the basis 
.
A)
B)
C)
D)
E)
in relative to the basis .A)
B)
C)
D)
E)
سؤال
Find the transition matrix from 
to 
by hand.
A)
B)
C)
D)
E)
to by hand.A)
B)
C)
D)
E)
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العب
ملء الشاشة (f)
Deck 4: Vector Spaces
1
Find the sum of the vectors and .
A)
B)
C)
D)
E)
and .A)
B)
C)
D)
E)
2
Find the vector v for which given that and .
A)
B)
C)
D)
E)
given that and .A)
B)
C)
D)
E)
3
Let , and . Find .
A)
B)
C)
D)
E)
, and . Find .A)
B)
C)
D)
E)
4
Which of the following vectors is the scalar multiple of
A)
B)
C)
D)
E)
A)
B)
C)
D)
E)
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5
Provided and , solve for w.
A)
B)
C)
D)
E)
and , solve for w.A)
B)
C)
D)
E)
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6
Provided that and , write as a linear combination of u and w, if possible.
A)
B)
C)
D)
E) It is not possible to write v as a linear combination of u and w.
and , write as a linear combination of u and w, if possible. A)
B)
C)
D)
E) It is not possible to write v as a linear combination of u and w.
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7
Provided and , find w such that .
A)
B)
C)
D)
E)
and , find w such that .A)
B)
C)
D)
E)
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8
Provided that and , write as a linear combination of , and , if possible.
A)
B)
C)
D)
E) It is not possible to write v as a linear combination of , and .
and , write as a linear combination of , and , if possible.A)
B)
C)
D)
E) It is not possible to write v as a linear combination of
, and . فتح الحزمة
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9
Provide that , and , write as a linear combination of , and , if possible.
A)
B)
C)
D)
E) It is not possible to write v as a linear combination of , and .
, and , write as a linear combination of , and , if possible.A)
B)
C)
D)
E) It is not possible to write v as a linear combination of
, and . فتح الحزمة
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10
Describe the zero vector (the additive identity) of the vector space .
A) (0, 0, 0, 0, 0)
B) (0, 0, 0, 0)
C) (0, 0, 0, 0, 0, 0)
D) (0, 0)
E) (0, 0, 0)
.A) (0, 0, 0, 0, 0)
B) (0, 0, 0, 0)
C) (0, 0, 0, 0, 0, 0)
D) (0, 0)
E) (0, 0, 0)
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11
Describe the zero vector (the additive identity) of the vector space .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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12
Describe the zero vector (the additive identity) of the vector space .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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13
Describe the zero vector (the additive identity) of the vector space .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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14
Describe the zero vector (the additive identity) of the vector space .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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15
Describe the zero vector (the additive identity) of the vector space .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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16
Describe the zero vector (the additive identity) of the vector space .
A)
B)
C)
D)
E)
. A)
B)
C)
D)
E)
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17
Describe the zero vector (the additive identity) of the vector space .
A)
B)
C)
D)
E)
. A)
B)
C)
D)
E)
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18
Describe the zero vector (the additive identity) of the vector space .
A)
B)
C)
D)
E)
. A)
B)
C)
D)
E)
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19
Describe the zero vector (the additive identity) of the vector space .
A)
B)
C)
D)
E)
. A)
B)
C)
D)
E)
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20
Describe the zero vector (the additive identity) of the vector space .
A)
B)
C)
D)
E)
. A)
B)
C)
D)
E)
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21
Determine whether the set, with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is a vector space. All ten vector space axioms hold.
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is a vector space. All ten vector space axioms hold.
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
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22
Determine whether the set of all first-degree polynomial functions as given below, whose graphs pass through the origin with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
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23
Determine whether the set of all second-degree polynomial functions as given below, whose graphs pass through the origin with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
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24
Determine whether the set of all third-degree polynomial functions as given below, whose graphs pass through the origin with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
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25
Determine whether the set of all fourth-degree polynomial functions as given below, whose graphs pass through the origin with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
D) This set is a vector space. All ten vector space axioms hold.
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
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26
Determine whether the following set with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
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27
Determine whether the following set with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
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28
Determine whether the following set with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
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29
Determine whether the following set with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
A) This set is a vector space. All ten vector space axioms hold.
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
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30
Determine whether the set of all diagonal matrices with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.
A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is a vector space. All ten vector space axioms hold.
diagonal matrices with the standard operations, is a vector space. If it is not, then determine the set of axioms that it fails.A) This set is not a vector space. It fails the following axioms.
Commutative property
Additive identity
Distributive property
B) This set is not a vector space. It fails the following axioms.
Scalar identity
Associative property
Distributive property
Additive identity
C) This set is not a vector space. It fails the following axioms.
Closer under addition
Closer under scalar multiplication
D) This set is not a vector space. It fails the following axioms.
Additive identity
Additive inverse
Associative property
Scalar identity
E) This set is a vector space. All ten vector space axioms hold.
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31
Verify is a subspace of .
is a subspace of . فتح الحزمة
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32
W is the set of all functions that are differentiable on . V is the set of all functions that are continuous on . Verify W is a subspace of V.
. V is the set of all functions that are continuous on . Verify W is a subspace of V. فتح الحزمة
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33
the following subset of is a subspace of .The set of all nonnegative functions:
is a subspace of .The set of all nonnegative functions: فتح الحزمة
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34
the following subset of is a subspace of .The set of all nonpositive functions:
is a subspace of .The set of all nonpositive functions: فتح الحزمة
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35
the following subset of is a subspace of .The set of all positive functions:
is a subspace of .The set of all positive functions: فتح الحزمة
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36
the following subset of is a subspace of .The set of all negative functions:
is a subspace of .The set of all negative functions: فتح الحزمة
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37
the following subset of is a subspace of .The set of all zero functions:
is a subspace of .The set of all zero functions: فتح الحزمة
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38
the following subset of is a subspace of .The set of all constant functions:
is a subspace of .The set of all constant functions: فتح الحزمة
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39
The set of all functions such that is a subspace of .
is a subspace of . فتح الحزمة
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40
The set of all lower triangular matrices is a subspace of .
lower triangular matrices is a subspace of . فتح الحزمة
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41
The set of all singular matrices is a subspace of .
singular matrices is a subspace of . فتح الحزمة
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42
? The set is a subspace of with the standard operations.
is a subspace of with the standard operations. فتح الحزمة
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43
The set is a subspace of with the standard operations.
is a subspace of with the standard operations. فتح الحزمة
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44
The set spans .
spans . فتح الحزمة
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45
The set spans .
spans . فتح الحزمة
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46
The set spans .
spans . فتح الحزمة
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47
The set spans .
spans . فتح الحزمة
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48
The set spans .
spans . فتح الحزمة
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49
The set is linearly independent.
is linearly independent. فتح الحزمة
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50
The set is linearly independent.
is linearly independent. فتح الحزمة
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51
The set is linearly dependent. Express the first vector as a linear combination of the other two vectors.
A)
B)
C)
D)
E)
is linearly dependent. Express the first vector as a linear combination of the other two vectors.A)
B)
C)
D)
E)
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52
The set spans .
spans . فتح الحزمة
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53
Write the standard basis for the vector space .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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54
Write the standard basis for the vector space .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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55
Write the standard basis for the vector space .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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56
Write the standard basis for the vector space .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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57
Write the standard basis for the vector space .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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58
Explain why is not a basis for .
A) S is linearly independent and spans
B) S is linearly dependent and does not span
C) S is linearly independent and does not span
D) S is linearly dependent and spans
E) none of these choices
is not a basis for .A) S is linearly independent and spans
B) S is linearly dependent and does not span
C) S is linearly independent and does not span
D) S is linearly dependent and spans
E) none of these choices
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59
Explain why is not a basis for .
A) S is linearly independent and spans
B) S is linearly dependent and spans
C) S is linearly independent and does not span
D) S is linearly dependent and does not span
E) none of these choices
is not a basis for .A) S is linearly independent and spans
B) S is linearly dependent and spans
C) S is linearly independent and does not span
D) S is linearly dependent and does not span
E) none of these choices
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60
Explain why is not a basis for .
A) S is linearly independent and spans
B) S is linearly dependent and spans
C) S is linearly dependent and does not span
D) S is linearly independent and does not span
E) none of these choices
is not a basis for .A) S is linearly independent and spans
B) S is linearly dependent and spans
C) S is linearly dependent and does not span
D) S is linearly independent and does not span
E) none of these choices
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61
Explain why is not a basis for .
A) S is linearly dependent and does not span
B) S is linearly dependent and spans
C) S is linearly independent and spans
D) S is linearly independent and does not span
E) none of these choices
is not a basis for .A) S is linearly dependent and does not span
B) S is linearly dependent and spans
C) S is linearly independent and spans
D) S is linearly independent and does not span
E) none of these choices
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62
The set is a basis for .
is a basis for . فتح الحزمة
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63
The set is a basis for .
is a basis for . فتح الحزمة
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64
Determine whether is a basis for . If it is, write as a linear combination of the vectors in S.?
A) S is a basis for and
B) S is a basis for and
C) S is a basis for and
D) S is a basis for and
E) S is not a basis for
is a basis for . If it is, write as a linear combination of the vectors in S.?A) S is a basis for
and B) S is a basis for
and C) S is a basis for
and D) S is a basis for
and E) S is not a basis for
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65
Determine whether is a basis for . If it is, write as a linear combination of the vectors in S.?
A) S is a basis for and
B) S is a basis for and ?
C) S is a basis for and
D) S is a basis for and
E) S is not a basis for
is a basis for . If it is, write as a linear combination of the vectors in S.?A) S is a basis for
and B) S is a basis for
and ? C) S is a basis for
and D) S is a basis for
and E) S is not a basis for
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66
Determine whether is a basis for . If it is, write as a linear combination of the vectors in S.?
A) S is a basis for and
B) S is a basis for and
C) S is a basis for and
D) S is a basis for and
E) S is not a basis for
is a basis for . If it is, write as a linear combination of the vectors in S.?A) S is a basis for
and B) S is a basis for
and C) S is a basis for
and D) S is a basis for
and E) S is not a basis for
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67
Find a basis for the column space of the matrix .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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68
Find a basis for the row space of a matrix .
A)
B)
C)
D)
E)
.A)
B)
C)
D)
E)
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69
Find the rank of the matrix
A) 2
B) 0
C) 4
D) 3
E) 1
A) 2
B) 0
C) 4
D) 3
E) 1
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70
Find a basis for the subspace of spanned by .
A)
B)
C)
D)
E)
spanned by .A)
B)
C)
D)
E)
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71
Find a basis for the subspace of spanned by .
A)
B)
C)
D)
E)
spanned by .A)
B)
C)
D)
E)
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72
Find a basis for and the dimension of the solution space of .
A) , dim = 1
B) , dim = 3
C) , dim = 1
D) ? , dim = 2
E) , dim = 3
. A)
, dim = 1B)
, dim = 3C)
, dim = 1D)
? , dim = 2E)
, dim = 3 فتح الحزمة
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73
Find a basis for the solution space of the following homogeneous system of linear equations.
A)
B)
C)
D)
E)
A)
B)
C)
D)
E)
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74
Determine whether B is in the column space of A. If it is, write B as a linear combination of the column vectors of A..
A) is in the column space of A and
B) is in the column space of A and
C) is in the column space of A and
D) does not belong to the column space of
E) none of these choices
A)
is in the column space of A and B)
is in the column space of A and C)
is in the column space of A and D)
does not belong to the column space of E) none of these choices
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75
Given that , the coordinate matrix of x relative to a (nonstandard) basis find the coordinate vector of x relative to the standard basis in .
A)
B)
C)
D)
E)
, the coordinate matrix of x relative to a (nonstandard) basis find the coordinate vector of x relative to the standard basis in .A)
B)
C)
D)
E)
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76
Given that , the coordinate matrix of x relative to a (nonstandard) basis . Find the coordinate vector of x relative to the standard basis in .
A)
B)
C)
D)
E)
, the coordinate matrix of x relative to a (nonstandard) basis . Find the coordinate vector of x relative to the standard basis in .A)
B)
C)
D)
E)
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77
Given that , the coordinate matrix of x relative to a (nonstandard) basis . Find the coordinate vector of x relative to the standard basis in .
A)
B)
C)
D)
E)
, the coordinate matrix of x relative to a (nonstandard) basis . Find the coordinate vector of x relative to the standard basis in .A)
B)
C)
D)
E)
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78
Find the transition matrix from to .
A)
B)
C)
D)
E)
to .A)
B)
C)
D)
E)
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79
Find the coordinate matrix of in relative to the basis .
A)
B)
C)
D)
E)
in relative to the basis .A)
B)
C)
D)
E)
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80
Find the transition matrix from to by hand.
A)
B)
C)
D)
E)
to by hand.A)
B)
C)
D)
E)
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