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Does not have an obvious "direction
- The equation of a line in two dimensions is ax + by = c a x + b y = c; it is reasonable to expect that a line in three dimensions is given by ax + by + cz = d a x + b y + c z = d; reasonable, but wrong—it turns out that this is the equation of a plane. A plane does not have an obvious "direction'' as does a line.
www.whitman.edu/mathematics/calculus_online/section12.05.html
Dec 21, 2020 · Unlike a plane, a line in three dimensions does have an obvious direction, namely, the direction of any vector parallel to it. In fact a line can be defined and uniquely identified by providing one point on the line and a vector parallel to the line (in one of two possible directions).
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Unlike a plane, a line in three dimensions does have an obvious direction, namely, the direction of any vector parallel to it. In fact a line can be defined and uniquely identified by providing one point on the line and a vector parallel to the line (in one of two possible directions).
May 28, 2013 · Here are three ways to describe the formula of a line in 3 dimensions. Let's assume the line L passes through the point (x0, y0, z0) and is traveling in the direction (a, b, c). Vector Form. (x, y, z) = (x0, y0, z0) + t(a, b, c) Here t is a parameter describing a particular point on the line L. Parametric Form.
Equation Of A Line In Three Dimensions. Equation of a line is defined as y= mx+c, where c is the y-intercept and m is the slope. Vectors can be defined as a quantity possessing both direction and magnitude.
A plane in R 3 \mathbb{R}^3 R 3 is a natural extension of a line in R 2 \mathbb{R}^2 R 2. For example, consider the line 2 x + 3 y = 6 2x+3y=6 2 x + 3 y = 6, which can be rewritten y = − 2 3 x + 2 y=−\dfrac{2}{3}x+2 y = − 3 2 x + 2. The "direction" of this line is the vector 2, 3 2,3 2, 3 , the coefficients of x x x and y y y in the equation.
By "the" equation of a line, what is usually meant is the "parametric" equation: Given two points, say (1,6,3) and (8,2,7), you you take their difference: (8,2,7) - (1,6,3) = (7,-4,4). This result (7,-4,4) you call the "direction vector" of the line passing through these two points.
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Does a line in 3 dimensions have an obvious direction?
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How do you identify a line?
In three-dimensional space, the line passing through the point (x_0, y_0, z_0) (x0,y0,z0) and is parallel to (a, b, c) (a,b,c) has parametric equations. \begin {aligned} x &= x_0 + at \\ y &= y_0 + bt \\ z &= z_0 + ct \\ -\infty &< t < + \infty \end {aligned} x y z −∞ = x0 + at = y0 + bt = z0 +ct <t <+∞.
