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Mathematics-Online test:

Vector Calculus, Test 3


This test contains problems (P) with different versions (V).

Shown:  P1 V5   P2 V-   P3 V2   P4 V-   P5 V-   P6 V-   P7 V- 
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Problem 1:
Solve the following linear system of equations:

\begin{displaymath}
\begin{array}{rcrcrcc}
3x_1 & + & 4x_2 & + & 5x_3 & = & 9...
... = & 3\\
2x_1 & + & x_2 & + & 4x_3 & = & 2\\
\end{array}
\end{displaymath}

Solution:

$ x_1=$ ,      $ x_2=$ ,      $ x_3=$

(Specify the solution rounded on three decimal places)


Problem 2:
Consider a parallelogram $ ABCD$. Denote by $ M$ the centre of line segment $ \overline{BC}$ and let $ S$ denote the point of intersection of the line segment $ \overline{AM}$ and the diagonal $ \overline{BD}$.

a)
At what ratio does $ S$ partition the diagonal $ \overline{BD}$?
b)
What is the ratio of the area of the parallelogram $ ABCD$ to the area of the triangle $ BMS$?

\includegraphics[width=.6\linewidth]{a1_bild.eps}

Solution:

a)
The ratio $ \overline{BS} : \overline{SD}$ is : .
b)
The ratio area $ BMS$ : area $ ABCD$ is : .


Problem 3:
Given vectors

$\displaystyle \vec{a}=\left(\begin{array}{c} 0 \\ 1 \\ 2 \end{array}\right),\qu...
...right),\quad
\vec{c}=\left(\begin{array}{c} 2 \\ 3 \\ 4 \end{array}\right)\,.
$

Find

$\displaystyle {\bf a)} \quad [\vec{a},\vec{b},\vec{c}\,]\,, \qquad
{\bf b)} \qu...
...,, \qquad
{\bf c)} \quad (\vec{a}\times\vec{c})\cdot (\vec{b}\times\vec{c})\,.
$

Solution:
a),     b)$ \big($ ,, $ \big)^\mathrm{t}$ ,     c)


Problem 4:

Consider the triangle with vertices

$\displaystyle A=(2,-1,2),\quad B=(-1,5,-1),\quad
C=(0,1,2).$

Compute the length of all sides, the angle $ \sphericalangle(\overrightarrow{AB},\overrightarrow{AC})$ and the aera of the triangle.

Antwort:
$ \big\vert\overrightarrow{AB}\big\vert^2=$,     $ \big\vert\overrightarrow{BC}\big\vert^2=$,     $ \big\vert\overrightarrow{AC}\big\vert^2=$,     $ \sphericalangle(\overrightarrow{AB},\overrightarrow{AC})=\pi/$.
Square of the area of the triangle: .


Problem 5:
Given the points $ P=(0,3,-2)$, $ Q=(3,7,-1)$ and $ R=(1,-3,-1)$ in $ \mathbb{R}^3$. Let $ g_1$ be the line through $ P$ and $ Q$, and let $ g_2$ be the line through $ R$ with direction

$\displaystyle \vec{v}= \begin{pmatrix}1 \\ 0 \\ 1 \end{pmatrix} \; .
$

Find the distance of $ P$ from $ g_2$, and the distance between $ g_1$ and $ g_2$.

Solution:

Distance of $ P$ from $ g_2$: .

Distance between $ g_1$ and $ g_2$: .


Problem 6:
Given the following plane in $ \mathbb{R}^3$

$\displaystyle E: \quad \vec{x}=\begin{pmatrix}-1 \\ 1 \\ 1 \end{pmatrix}+
\alp...
...\ 2 \\ 0 \end{pmatrix} +
\beta \begin{pmatrix}1 \\ 0 \\ 1 \end{pmatrix} \; .
$

a)
Let $ F$ be the plane through point $ A=(-4,2,2)$ , parallel to $ E$ . Find the equation describing the plane $ E$ .

b)
Which point $ B$ on plane $ E$ has minimal distance from point $ A$ . What is the minimal distance?

c)
Show that point $ C=(-3,0,4)$ lies in the plane $ F$ , and that the points $ A,B,C$ form an equilateral triangle. Find the lenghts of the sides, all interior angles, and the area of the triangle.

Solution:

a)
Complete the missing coefficients of the equation of $ F$ : $ 2x+$ $ y+$ $ z=$ .
b)
Point $ B=\Big($ , , $ \Big)$ , distance: .
c)
squared sides: $ \big\vert\overrightarrow{AB}\big\vert^2=$ , $ \big\vert\overrightarrow{BC}\big\vert^2=$ , $ \big\vert\overrightarrow{CA}\big\vert^2=$ .
$ \sphericalangle (ABC)=\pi/$ , $ \sphericalangle (BCA)=\pi/$ , $ \sphericalangle (CAB)=\pi/$ .
Area of triangle: /     (given as completely reduced fraction).

Problem 7:
Let $ g$ be the line given by

$\displaystyle \vec{x}= \left( \begin{array}{c} 2 \\ -2 \\ -1 \end{array} \right)
+ t \left( \begin{array}{c} -1 \\ 0 \\ 1 \end{array} \right)
$

and let $ P$ be the point $ (2,-1,1)$ .
a)
Calculate the distance between $ P$ and $ g$ .
b)
Determine the defining equation of the plane $ E$ spanned by the points $ A=(0,1,1)$ , $ B=(1,2,2)$ and $ C=(1,0,1)$ .
c)
Let $ F$ be the plane spanned by $ g$ and $ P$ . At which angle do $ E$ and $ F$ intersect each other?
d)
Calculate the volume of the parallelepiped spanned by $ A$ , $ B$ , $ C$ and $ D=(-3,0,1)$ .

Solution:

a)
Squared distance: .
b)
$ E$ : $ x+$ $ y+$ $ z=$ .
c)
Angel of intersection: $ \pi$ /.
d)
Volume: .


   

() automatically generated 8/11/2017