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Transcript of Chapter 12 – Vectors and the Geometry of Space 12.5 Equations of Lines and Planes 1 Objectives: ...
![Page 1: Chapter 12 – Vectors and the Geometry of Space 12.5 Equations of Lines and Planes 1 Objectives: Find vector, parametric, and general forms of equations.](https://reader035.fdocuments.net/reader035/viewer/2022062304/56649d0c5503460f949e0ef1/html5/thumbnails/1.jpg)
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Chapter 12 – Vectors and the Geometry of Space12.5 Equations of Lines and Planes
12.5 Equations of Lines and Planes
Objectives: Find vector, parametric,
and general forms of equations of lines and planes.
Find distances and angles between lines and planes
![Page 2: Chapter 12 – Vectors and the Geometry of Space 12.5 Equations of Lines and Planes 1 Objectives: Find vector, parametric, and general forms of equations.](https://reader035.fdocuments.net/reader035/viewer/2022062304/56649d0c5503460f949e0ef1/html5/thumbnails/2.jpg)
12.5 Equations of Lines and Planes 2
Lines in 2DA line in the xy-plane is
determined when a point on the line and the direction of the line (its slope or angle of inclination) are given.
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12.5 Equations of Lines and Planes 3
Lines in 3DA line L in 3D space is
determined when we know:◦A point P0(x0, y0, z0) on L
◦The direction of L, given by a vector
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12.5 Equations of Lines and Planes 4
Definition – Vector EquationSo, we let v be a vector parallel to L. Let P(x, y, z) be an arbitrary point on L. Let r0 and r be the position vectors of P0 and P.
If a is the vector with representation from P to Po.
Then the Triangle Law for vector addition gives r = r0 + a.
However, since a and v are parallel vectors, there is a scalar t such that a = tv.
So we have
This is a vector equation of L.
1 r = r0 + t v
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12.5 Equations of Lines and Planes 5
Definition continuedWe can also write this definition in component form:
r = <x, y, z> and r0 = <x0, y0, z0>
◦ So, vector Equation 1 becomes:
Positive values of t correspond to points on L that lie on one side of P0.
Negative values correspond to points that lie on the other side.
<x, y, z> = <x0 + ta, y0 + tb, z0 + tc> 2
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12.5 Equations of Lines and Planes 6
Definition continued Two vectors are equal if and only if corresponding
components are equal.
Hence, we have the following three scalar equations.
x = x0 + at y = y0 + bt z = z0 + ct, where t ℝ These equations are called parametric equations of
the line L through the point P0(x0, y0, z0) and parallel to the vector v = <a, b, c>.
Each value of the parameter t gives a point (x, y, z) on L.
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12.5 Equations of Lines and Planes 7
Example 1 – pg 824 #2Find a vector equation and
parametric equations for the line.
The line through the point (6,-5,2) and parallel to the vector <1,3,-2/3>.
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12.5 Equations of Lines and Planes 8
Definition - Symmetric Equations If we solve the equations for t
x = x0 + at, y = y0 + bt, z = z0 + ct,
we get the following symmetric equations.
0 0 0x x y y z z
a b c
3
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12.5 Equations of Lines and Planes 9
Example 2Find parametric equations and
symmetric equations for the line.
The line through the points (6,1,-3) and (2,4,5).
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12.5 Equations of Lines and Planes 10
Equations of Line SegmentsThe line segment from r0 to r1 is
given by the vector equation
where 0 ≤ t ≤ 1
r(t) = (1 – t)r0 + t
r1
4
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12.5 Equations of Lines and Planes 11
Definition – Skew Lines
Lines that are skew are not parallel and do NOT intersect. They do NOT lie in the same plane.
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12.5 Equations of Lines and Planes 12
Example 3Determine whether the lines L1
and L2 are parallel, skew, or intersecting. If they intersect, find the point of intersection.
1
2
1 3 2:2 2 12 6 2
:1 1 3
x y zL
x y zL
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12.5 Equations of Lines and Planes 13
PlanesA plane in space is determined
by:◦A point P0(x0, y0, z0) in the plane
◦ A vector n that is orthogonal to the plane
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12.5 Equations of Lines and Planes 14
Definition – Normal VectorThis orthogonal vector n is called
a normal vector.The normal vector n is
orthogonal to every vector in the given plane.
In particular, n is orthogonal to r – r0.
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12.5 Equations of Lines and Planes 15
Equation of PlanesIf n is orthogonal to r – r0 we
have the following equations:
Either Equation 5 or Equation 6 is called a vector equation of the plane.
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12.5 Equations of Lines and Planes 16
Equations of PlanesThis equation is the scalar equation of
the plane through P0(x0, y0, z0) with normal vector n = <a, b, c>.
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12.5 Equations of Lines and Planes 17
Linear Equation
where d = –(ax0 + by0 + cz0)
◦This is called a linear equation in x, y, and z.
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12.5 Equations of Lines and Planes 18
Example 4 – pg. 825 # 34Find an equation of the plane.
The plane that passes through the point (1,2,3) and contains the line x = 3t, y = 1 + t, z = 2 – t.
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12.5 Equations of Lines and Planes 19
Example 5 – pg. 825 # 45Find the point at which the line
intersects the given plane.
x = 3 – ty = 2 + tz = 5tx – y + 2z = 9
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12.5 Equations of Lines and Planes 20
Example 6 – pg. 825 #48Where does the line through
(1,0,1) and (4, -2, 2) intersect the plane x + y + z = 6?
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12.5 Equations of Lines and Planes 21
More Examples
The video examples below are from section 12.5 in your textbook. Please watch them on your own time for extra instruction. Each video is about 2 minutes in length. ◦Example 3◦Example 4 ◦Example 7
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12.5 Equations of Lines and Planes 22
Demonstrations
Feel free to explore these demonstrations below.
Constructing Vector Geometry Solutions