Analytic geometry in a space

2010016104

Level:

Find the equations of all the tangent planes to the sphere \((x + 2)^2 + (y - 1)^2 + (z - 4)^2 = 36\) passing through the point \([t_1; -3; 8]\). The passing point belongs to the sphere and its first coordinate \(t_1\) is greater than \(x\) coordinate of the sphere center.

\( x+2y-2z+26=0\)

\( x-2y+2z-22=0\)

\( x-2y+2z-18=0\)

\( x-2y-2z+14=0\)

2010016103

Level:

Find the equations of all the tangent planes to the sphere \((x - 2)^2 + (y + 1)^2 + (z + 4)^2 = 36\) passing through the point \([-2; 3; t_3]\). The passing point belongs to the sphere and its third coordinate \(t_3\) is greater than \(z\) coordinate of the sphere center.

\( 2x-2y-z+8=0\)

\( 2x-2y+z+16=0\)

\( 2x-2y-3z+4=0\)

\( 2x-2y-5z=0\)

2010016102

Level:

If the equation \( x^2+y^2+z^2+2x-8y+z+18=0\) is the equation of a sphere, find its center \(S\) and radius \(r\).

It is not a sphere equation.

\( S= \left[ -1;4;-\frac12\right]\), \(r=\frac34\)

\( S= \left[ 1;-4;\frac12\right]\), \(r=\frac{\sqrt3}2\)

\( S= \left[ -1;4;-\frac12\right]\), \(r=\frac{\sqrt3}2\)

\( S= \left[ 1;-4;\frac12\right]\), \(r=\frac34\)

2010016101

Level:

If the equation \( x^2+y^2+z^2+2x-8y+z+17=0\) is the equation of a sphere, find its center \(S\) and radius \(r\).

\( S= \left[ -1;4;-\frac12\right]\), \(r=\frac12\)

\( S= \left[ -1;4;-\frac12\right]\), \(r=\frac14\)

\( S= \left[ 1;-4;\frac12\right]\), \(r=\frac12\)

\( S= \left[ 1;-4;\frac12\right]\), \(r=\frac14\)

It is not a sphere equation.

2010008710

Level:

Reflect the point \(R=[1; 10; -8]\) across the plane \(\omega \colon 2x-y-3z+12=0\). Hint: The line \(RR'\) is perpendicular to the plane \(\omega\) (see the picture).

\(R'=[-7;14;4]\)

\(R'=[-3;12;-2]\)

\(R'=[-1;-10;8]\)

\(R'=[-5;34;-14]\)

2010008709

Level:

Reflect the point \(P=[4; −8; 7]\) across the plane \(\sigma\colon 3x-2y+4z+2=0\). Hint: The line \(PP'\) is perpendicular to the plane \(\sigma\) (see the picture).

\(P'=[-8;0;-9]\)

\(P'=[-2;-4;-1]\)

\(P'=[10;-12;15]\)

\(P'=[16;-16;23]\)

2010008708

Level:

Reflect the point \(B=[4;-8;-7]\) over the straight line \(q\): \begin{align*} q\colon x&= 2+3t, \\ y&= 8+4t, \\ z&= -7-2t;\ t\in\mathbb{R}. \end{align*} Hint: See the picture.

\(B'=[-12;8;1]\)

\(B'=[-4;0;-3]\)

\(B'=[-4;-8;-13]\)

\(B'=[-4;8;7]\)

2010008707

Level:

Let \(ABCDEFGH\) be a cube with an edge length of \(2\) units placed in the rectangular coordinate system. In the cube a regular tetrahedron \(BDEG\) is highlighted (see the picture). Find the angle between its faces and round the number to the nearest minute.

\(70^{\circ}32'\)

\(45^{\circ}0'\)

\(51^{\circ}4'\)

\(54^{\circ}44'\)

2010008706

Level:

A cube \( ABCDEFGH \) with an edge length of \( 4 \) units is placed in a coordinate system (see the picture). Find an angle \( \psi \) between the plane \( \rho \) passing through the points \( B \), \( D \) and \( H \) and the straight line \( CF \). Hint: An angle between a line and a plane is an angle between the line and its orthogonal projection into this plane.

\( \psi = \frac{\pi}6 \)

\( \psi = \frac{\pi}{12} \)

\( \psi = \frac{\pi}4 \)

\( \psi = \frac{\pi}3 \)

2010008705

Level:

A cube \( ABCDEFGH \) with an edge length of \( 4 \) units is placed in a coordinate system (see the picture). Find the distance of parallel lines \( p=PQ\) and \( r=RS \), where points \( P \), \( Q \), \( R\) and \( S \) are midpoints of edges \(BF\), \(BC\), \(EH\) and \(DH\) respectively.

\( |pr|=2\sqrt6 \)

\( |pr|=4\sqrt3 \)

\( |pr|=6\sqrt2 \)

\( |pr|=4\sqrt2 \)

Analytic geometry in a space

2010016104

2010016103

2010016102

2010016101

2010008710

2010008709

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2010008707

2010008706

2010008705

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