Coordinates

4 Activities

Practice: Coordinates
Find the coordinates of the polynomial p(x)=5+x−3x2−3x3p(x)=5+x-3x^2-3x^3p(x)=5+x−3x2−3x3 relative to the following basis of P3P_3P3​:
B={(1+x),  (x+x2),  (x2+x3),  (1−x3)}B = \{(1+x),\ \ (x+x^2),\ \ (x^2+x^3),\ \ (1-x^3)\}B={(1+x),  (x+x2),  (x2+x3),  (1−x3)}

1st coordinate:  
2nd coordinate: 
3rd coordinate:  
4th coordinate:  

I don't know

Coordinates

Practice: Coordinates
Find the coordinates of the polynomial p(x)=5+x−3x2−3x3p(x)=5+x-3x^2-3x^3p(x)=5+x−3x2−3x3 relative to the following basis of P3P_3P3​:
B={(1+x),  (x+x2),  (x2+x3),  (1−x3)}B = \{(1+x),\ \ (x+x^2),\ \ (x^2+x^3),\ \ (1-x^3)\}B={(1+x),  (x+x2),  (x2+x3),  (1−x3)}

Practice: Coordinates

Find the coordinates of the polynomial p(x)=5+x−3x2−3x3p(x)=5+x-3x^2-3x^3p(x)=5+x−3x2−3x3 relative to the following basis of P3P_3P3​:
{(1+x),(x+x2),(x2+x3),(1−x3)}\{(1+x),(x+x^2),(x^2+x^3),(1-x^3)\}{(1+x),(x+x2),(x2+x3),(1−x3)}

Verify if the following vectors form a basis for R3\mathbb{R}^3R3:
{[112],[1−21],[2−11]}\left\{
\begin{bmatrix}
1 \\
1 \\
2
\end{bmatrix},
\begin{bmatrix}
1 \\
-2 \\
1
\end{bmatrix},\begin{bmatrix}
2 \\
-1 \\
1
\end{bmatrix}
\right\}⎩⎨⎧​​112​​,​1−21​​,​2−11​​⎭⎬⎫​

19.4F_Mid_Builder_$\tkcth{8.5.}\tkco{9}$__$\tkco{Mock 3}$

Taken together,
 v⃗1=[11]\vv_1 = \colvec{1}{1}v1​=[11​] and v⃗2=[1−1]\vv_2 = \colvec{1}{-1}v2​=[1−1​] 
constitute a basis forR2\mathbb{R}^2R2. Determine the coordinates [x⃗]v=[xv1xv2][ \vx ]_{v} = \colvec{\bcth{x_{v_1}}}{\bct{x_{v_2}}}[x]v​=[xv1​​xv2​​​]of the vector x⃗=[21]\vx = \colvec{2}{1}x=[21​] relative to this basis.  

Concept Clarifier: Finding Coordinate Vectors

The following is a basis for R2\mathbb{R}^2R2 . 
{(11),(−20)}\left \{ \left ( \begin{array}{c}
1 \\ 1 
\end{array} \right ), \left ( \begin{array}{c}
-2 \\0 
\end{array} \right ) \right \}{(11​),(−20​)}
If v⃗=(2,3)\vec{v} = (2, 3)v=(2,3) is a coordinate vector in this basis, what is v⃗\vec{v}v in coordinates with respect to the basis

19.4F_Mid_Builder_$\tkcth{8.4.16}$_$\tkcth{mock 1 ✓}$

Find the coordinates (c1, c2)(c_1,\, c_2)(c1​,c2​) for the point P=(8,11)P = (8,11)P=(8,11) in terms of the nonstandard basis vectors e⃗1=<1, 1>\ve{1} = \rowvec{1}{1}e1​=⟨1,1⟩ and e⃗2=<6, 9>\ve{2} = \rowvec{6}{9}e2​=⟨6,9⟩. 

Coordinates

Find the coordinates of the polynomial p(x)=2−x+x2p(x)=2-x+x^2p(x)=2−x+x2 relative to the basis {1+x,1+x2,x+x2}\{1+x,1+x^2,x+x^2\}{1+x,1+x2,x+x2} of P2P_2P2​

19.4F_133_8.2_Mock_F1_$\tkco{eg6}$_$\key{Final}$_Builder_$\tkcth{8.2.}\tkcf{6}$_

The set {[21]}\left\{ \colvec{2}{1} \right\}{[21​]} is a basis for the subspace TTT, where T⊆R2T \subseteq \mathbb{R}^2T⊆R2.
Give the position vector r⃗P\vr_{_{P}}rP​​ (in the standard basis) corresponding to the point in TTT whose coordinate is given by PT=(3)P_{T} = (3)PT​=(3).
If r⃗=[xy]\vr = \colvec{\bco{x}}{\bct{y}}r=[xy​], then 

Coordinates

Practice: Coordinates
Let B1={[−120],[3−52],[4−73]}B_1=
\left\{
\begin{bmatrix}
-1\\ 2 \\0\\
\end{bmatrix}
,
\begin{bmatrix}
3\\ -5\\ 2\\
\end{bmatrix}
,
\begin{bmatrix}
4\\ -7\\ 3\\
\end{bmatrix}
\right\}B1​=⎩⎨⎧​​−120​​,​3−52​​,​4−73​​⎭⎬⎫​ and B2={[2−31],[11−1],[−1−30]}B_2=
\left\{
\begin{bmatrix}
2\\ -3 \\1\\
\end{bmatrix}
,
\begin{bmatrix}
1\\ 1\\ -1\\
\end{bmatrix}
,
\begin{bmatrix}
-1\\ -3\\ 0\\
\end{bmatrix}
\right\}B2​=⎩⎨⎧​​2−31​​,​11−1​​,​−1−30​​⎭⎬⎫​ be two bases of R3\mathbb{R}^3R3.
Suppose [x⃗]B1=[−48−7][\vec x]_{\small B_1} = 
\begin{bmatrix}
  -4\\ 8\\ -7\\
\end{bmatrix}[x]B1​​=​−48−7​​.

Example: Change of Basis

Example:  Change of Basis
Suppose we have 2 ordered bases: A=((1,−1),(−2,1)),B=((1,1),(1,2))A=((1,-1),(-2,1)),B=((1,1),(1,2))A=((1,−1),(−2,1)),B=((1,1),(1,2)) .
Compute the change of basis matrix CA→BC_{A\rightarrow B}CA→B​, and if[v⃗]A=(−3,−4)[\vec v]_A=(-3,-4)[v]A​=(−3,−4), then find [v⃗]B[\vec v]_B[v]B​ .

Practice Question: Change of Basis

Suppose we have an ordered basis B=((1,1,1),(2,0,−1),(−1,1,0))B=((1,1,1),(2,0,-1),(-1,1,0))B=((1,1,1),(2,0,−1),(−1,1,0)) .  Let S=((1,0,0),(0,1,0),(0,0,1))S=((1,0,0),(0,1,0),(0,0,1))S=((1,0,0),(0,1,0),(0,0,1)) be the standard ordered basis.  Compute the change of basis matrix CS→BC_{S\rightarrow B}CS→B​ , and use it to find (2,−1,2)B(2,-1,2)_B(2,−1,2)B​ 
(i.e. find [v⃗]B[\vec v]_B[v]B​ , if [v⃗]S=(2,−1,2)[\vec v]_S=(2,-1,2)[v]S​=(2,−1,2) ).

Let {1−x,x,1+x2,x−x3,x4}\{ 1 - x, x, 1 + x^2, x - x^3, x^4 \}{1−x,x,1+x2,x−x3,x4} be the basis for the vector space of polynomials with degree at most 4. What is the coordinate vector for vvv in this basis?
v=4−x2+x3−2x4v = 4 - x^2 + x^3 - 2x^4v=4−x2+x3−2x4

Consider the vector v=(1,2,3)v = (1, 2, 3)v=(1,2,3) with respect to the standard unit vector basis. What is the coordinate vector for vvv in the following basis:
{(110),(010),(−10−2)}\left \{ \left ( \begin{array}{c}
1 \\ 1\\ 0
\end{array} \right ), \left ( \begin{array}{c}
0 \\1 \\ 0
\end{array} \right ) , \left ( \begin{array}{c}
-1 \\ 0 \\ -2
\end{array} \right ) \right \}⎩⎨⎧​​110​​,​010​​,​−10−2​​⎭⎬⎫​

Coordinates

Related Topics

Coordinates

Practice: Coordinates

More Coordinates Questions:

Coordinates

Practice: Coordinates

19.4F_Mid_Builder_$\tkcth{8.5.}\tkco{9}$__$\tkco{Mock 3}$

Concept Clarifier: Finding Coordinate Vectors

19.4F_Mid_Builder_$\tkcth{8.4.16}$_$\tkcth{mock 1 ✓}$

Coordinates

19.4F_133_8.2_Mock_F1_$\tkco{eg6}$_$\key{Final}$_Builder_$\tkcth{8.2.}\tkcf{6}$_

Coordinates

Example: Change of Basis

Practice Question: Change of Basis