Planes in $\reals^3$

6 Activities

Practice: Normal Vector
Which of the following vectors is normal to the plane 3x+z=73x+z=73x+z=7?

A) ⟨3,0,1⟩\lang 3,0,1 \rang⟨3,0,1⟩

B) ⟨−3,0,−1⟩\lang -3,0,-1 \rang⟨−3,0,−1⟩

C) ⟨3,0,−1⟩\lang 3,0,-1 \rang⟨3,0,−1⟩

D) ⟨3,1,7⟩\lang 3,1,7 \rang⟨3,1,7⟩

E) ⟨3,1,−7⟩\lang 3,1,-7 \rang⟨3,1,−7⟩

I don't know

More Planes in $\reals^3$ Questions:

Write down the equation of a plane defined by this parametric equation: P: (-2,0,5)+s(3,1,2)+t(-2,2,0)

Consider the two lines, L_1:(1,0,0)+s(1,1,1) and L_2:(-1,2,3)+t(4,0,c).
a) For what value of c two lines intersects.
b) Find the equation of the plane containing both lines.

Write down equation of Line L: (1,3,5)+t(-4,1,3) as the intersection of two planes.

Find a point whose distance to the plane 3x+4y−10z=303x+4y-10z=303x+4y−10z=30 is equal to 10.

Consider two planes with equations 3x+2y−z=8 and ax−6y+bz=8.3x+2y-z=8\ and\ ax-6y+bz=8.3x+2y−z=8 and ax−6y+bz=8.
a) For what values of a and b are two planes parallel?
b) For what values of a and b is the angle between two planes 60 degrees?

If two planes 2x+ay−2z=2y+62x+ay-2z=2y+62x+ay−2z=2y+6 and x=y+z+3x=y+z+3x=y+z+3 are parallel, at which point does the first plane intersect with x-axis.

Consider two lines: L1:(1,0,0)+s(1,1,1) and L2:(-1,2,3)+t(4,0,c).
a) For what value of c two lines intersects.
b) Find the equation of the plane containing both lines.

Find gen form plane thru pt parallel to 2 vecs

Given that the plane PPP passes through the point (1,3,−1)\left(1,3,-1\right)(1,3,−1) and is parallel to both vectors
𝑢⃗=(0,1,1)𝑢⃗ = (0,1,1)u⃗=(0,1,1) and 𝑣⃗=(3,2,1),\vec𝑣 = (3,2,1),v=(3,2,1),find the standard form equation of the plane.
(type your answer in the form ax+by+cz=d, with no spaces)

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 59.1

 Given the points P1=(0,0,1)\bcb{P_1 = (0,0,1)}P1​=(0,0,1) and  P2=(1,−2,3)\bcb{P_2 = (1,-2,3)}P2​=(1,−2,3) and the vector v⃗=<2,−3,1>\bcb{\vec{v} = \left< 2, -3, 1 \right>}v=⟨2,−3,1⟩
Find the equation of the plane Π\bcb{\Pi}Π perpendicular to v⃗\bcb{\vec{v}}v, containing the point P1\bcb{P_1}P1​. 

A plane is parallel to the vector v=⟨1,1,0⟩v = \langle1, 1, 0\ranglev=⟨1,1,0⟩. If it passes through points (1,2,−1)(1,2,-1)(1,2,−1) and (2,1,0)(2,1,0)(2,1,0) then find the equation of the plane.

Which one of the following is a vector that is orthogonal to the line that passes through the points P(1,−1,0)P\left(1,-1,0\right)P(1,−1,0) and Q(5,0,−3)Q\left(5,0,-3\right)Q(5,0,−3)?

Which of the following is a vector orthogonal/ perpendicular to the plane 2x−z=32x-z=32x−z=3?

133 - FML 3 - 18.1W e.g. 30

Find the equation of a plane passing through the point (2,0,1)\bcb{(2, 0, 1)}(2,0,1), perpendicular to the straight line passing through the points (1,1,0)\bcb{(1, 1, 0)}(1,1,0) and (4,−1,−2)\bcb{(4, -1, -2)}(4,−1,−2).

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 60.7

 Given the planes
π1 : 4x−3y+z=2\bcb{\pi_1 \, : \, 4x - 3y + z = 2}π1​:4x−3y+z=2 and π2 : x+2y+2z=0\bcb{\pi_2 \, : \, x + 2y + 2z = 0}π2​:x+2y+2z=0, and the lines
L1 : {x=3t+2y=−2t+1z=t, L2 : {x=−2t+1y=t+1z=t+3, L3 : {x=t+3y=−tz=2t+1\bcb{L_1 \, : \, \left\{ \begin{matrix} x & = & 3t + 2 \\ y & = & -2t + 1 \\ z & = & t \end{matrix} \right., ~ 
L_2 \, : \, \left\{ \begin{matrix} x & = & -2t + 1 \\ y & = & t + 1 \\ z & = & t + 3 \end{matrix} \right., ~ 
L_3 \, : \, \left\{ \begin{matrix} x & = & t + 3 \\ y & = & -t \\ z & = & 2t +1 \end{matrix} \right.}L1​:⎩⎨⎧​xyz​===​3t+2−2t+1t​, L2​:⎩⎨⎧​xyz​===​−2t+1t+1t+3​, L3​:⎩⎨⎧​xyz​===​t+3−t2t+1​,

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 60.4

 Given the planes
π1 : 4x−3y+z=2\bcb{\pi_1 \, : \, 4x - 3y + z = 2}π1​:4x−3y+z=2 and π2 : x+2y+2z=0\bcb{\pi_2 \, : \, x + 2y + 2z = 0}π2​:x+2y+2z=0, and the lines
L1 : {x=3t+2y=−2t+1z=t, L2 : {x=−2t+1y=t+1z=t+3, L3 : {x=t+3y=−tz=2t+1\bcb{L_1 \, : \, \left\{ \begin{matrix} x & = & 3t + 2 \\ y & = & -2t + 1 \\ z & = & t \end{matrix} \right., ~ 
L_2 \, : \, \left\{ \begin{matrix} x & = & -2t + 1 \\ y & = & t + 1 \\ z & = & t + 3 \end{matrix} \right., ~ 
L_3 \, : \, \left\{ \begin{matrix} x & = & t + 3 \\ y & = & -t \\ z & = & 2t +1 \end{matrix} \right.}L1​:⎩⎨⎧​xyz​===​3t+2−2t+1t​, L2​:⎩⎨⎧​xyz​===​−2t+1t+1t+3​, L3​:⎩⎨⎧​xyz​===​t+3−t2t+1​,

The following linear equations represent planes in R3R^3R3. Describe the intersection of these planes (if any).
2x+y−z=3x−y−z=33x+z=6\begin{array}{c}
2x+y-z=3\\
x-y-z=3\\
3x+z=6
\end{array}2x+y−z=3x−y−z=33x+z=6​

Planes in $\reals^3$

Practice: Planes in R3\colorOne{\reals^3}R3 (Tricky)
Consider the points A(−1,3,2)A(-1,3,2)A(−1,3,2), B(−3,5,0)B(-3,5,0)B(−3,5,0), and C(xC,yC,zC)C(x_C,y_C,z_C)C(xC​,yC​,zC​), and suppose we know the vector AC→=⟨3,−4,−5⟩\overrightarrow{AC}=\lang 3,-4,-5\rangAC=⟨3,−4,−5⟩.
Find the equation of the plane containing point CCC, and perpendicular to the line passing through points AAA and BBB.

133 - FML 3 - 18.1W e.g. 31

Find a point on, and a vector normal to, the plane 2x+y+3z=6\bcb{2x + y + 3z = 6}2x+y+3z=6.

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 57

Find the equation of a plane that contains the three points P1=(1,−2,3)\bcb{P_1 = (1,-2, 3)}P1​=(1,−2,3), P2=(0,−1,4)\bcb{P_2 = (0, -1, 4)}P2​=(0,−1,4) and P3=(4,3,−2)\bcb{P_3 = (4,3,-2)}P3​=(4,3,−2). 

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 50

 Find the equation of a plane perpendicular to w⃗=<1,−2,1>\bcb{\vec{w} = \left< 1, -2, 1\right>}w=⟨1,−2,1⟩ that contains the point P=(−1,1,2)\bcb{P = (-1, 1, 2)}P=(−1,1,2). 

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 59.3

 Given the points P1=(0,0,1)\bcb{P_1 = (0,0,1)}P1​=(0,0,1) and  P2=(1,−2,3)\bcb{P_2 = (1,-2,3)}P2​=(1,−2,3) and the vector v⃗=<2,−3,1>\bcb{\vec{v} = \left< 2, -3, 1 \right>}v=⟨2,−3,1⟩, find the point Po\bcb{P_o}Po​ on the plane Π: 2x−3y+z=1\bcb{\Pi: \ 2x - 3y + z = 1}Π: 2x−3y+z=1 that is closest to the point P2\bcb{P_2}P2​.

133 - FML 3 - 18.1W e.g. 31

Find a point on, and a vector normal to, the plane 2x+y+3z=6\bcb{2x + y + 3z = 6}2x+y+3z=6.

Planes in R^3

Which one of the following is the standard form equation of the plane in R3\reals^3R3 which contains the lines (x,y,z)=(2,0,−1)+t(2,−5,−1)(x,y,z)=(2,0,-1)+t(2,-5,-1)(x,y,z)=(2,0,−1)+t(2,−5,−1) and (x,y,z)=(3,1,2)+t(3,−5,1)(x,y,z)=(3,1,2)+t(3,-5,1)(x,y,z)=(3,1,2)+t(3,−5,1)

Planes in $\reals^3$

Related Topics

Planes in R3\reals^3R3

Practice: Normal Vector

More Planes in R3\reals^3R3 Questions:

Find gen form plane thru pt parallel to 2 vecs

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 59.1

133 - FML 3 - 18.1W e.g. 30

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 60.7

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 60.4

Planes in $\reals^3$

133 - FML 3 - 18.1W e.g. 31

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 57

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 50

$\tkct{cut from 19.4F}$ Mid $\tkco{ S}$ | 133 - FML 3 - 18.1W e.g. 59.3

133 - FML 3 - 18.1W e.g. 31

Planes in R^3

Planes in $\reals^3$

More Planes in $\reals^3$ Questions: