Understanding the Equation $ AD^2 = (x - 1)^2 + y^2 + z^2 = 2 $: A Geometric Insight

The equation $ (x - 1)^2 + y^2 + z^2 = 2 $ defines a fascinating three-dimensional shape รƒยƒร‚ยขรƒย‚ร‚ย€รƒย‚ร‚ย” a sphere รƒยƒร‚ยขรƒย‚ร‚ย€รƒย‚ร‚ย” and plays an important role in fields ranging from geometry and physics to machine learning and computer graphics. This article explores the meaning, geometric interpretation, and applications of the equation $ AD^2 = (x - 1)^2 + y^2 + z^2 = 2 $, where $ AD $ may represent a distance-based concept or a squared distance metric originating from point $ A(1, 0, 0) $.

Understanding the Context

What Is the Equation $ (x - 1)^2 + y^2 + z^2 = 2 $?

This equation describes a sphere in 3D space with:

  • Center: The point $ (1, 0, 0) $, often denoted as point $ A $, which can be considered as a reference origin $ A $.
    - Radius: $ \sqrt{2} $, since the standard form of a sphere is $ (x - h)^2 + (y - k)^2 + (z - l)^2 = r^2 $, where $ (h,k,l) $ is the center and $ r $ the radius.

Thus, $ AD^2 = (x - 1)^2 + y^2 + z^2 = 2 $ expresses that all points $ (x, y, z) $ are at a squared distance of 2 from point $ A(1, 0, 0) $. Equivalently, the Euclidean distance $ AD = \sqrt{2} $.

Solved 1. y=x^2 - z2 2. x^2 - y^2 + z^2 = 1 3. y = 2x^2 + | Chegg.com

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Solved 1. y=x^2 - z2 2. x^2 - y^2 + z^2 = 1 3. y = 2x^2 + | Chegg.com
Solved | Chegg.com
Solved D 1. x2 - y2 + z2 = 1 2. x2 + 4y2 + 9z2 = 1 3. โ€“ x2 | Chegg.com
Solved 1. x2โˆ’y2+z2=1 2. x2+4y2+9z2=1 3. 9x2+4y2+z2=1 4. | Chegg.com
Solved 1. (xโˆ’1)2+(yโˆ’1)2+z2=1 2. x2+y2+z2=4 B 3. | Chegg.com

Key Insights

Geometric Interpretation

  • Center: At $ (1, 0, 0) $, situated on the x-axis, a unit distance from the origin.
    - Shape: A perfect sphere of radius $ \sqrt{2} pprox 1.414 $.
    - Visualization: Imagine a ball centered at $ (1, 0, 0) $, touching the x-axis at $ (1 \pm \sqrt{2}, 0, 0) $ and symmetrically extending in all directions in 3D space.

This simple form efficiently models spherical symmetry, enabling intuitive geometric insight and practical computational applications.

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Question: A cylinder has radius $ r $ and height $ 6r $. A cone has radius $ 2r $ and height $ 3r $. What is the ratio of the volume of the cylinder to the volume of the cone?
Solution: The volume of the cylinder is $ V_{\text{cyl}} = \pi r^2 (6r) = 6\pi r^3 $. The volume of the cone is $ V_{\text{cone}} = \frac{1}{3} \pi (2r)^2 (3r) = \frac{1}{3} \pi (4r^2)(3r) = 4\pi r^3 $. The ratio is:
\frac{V_{\text{cyl}}}{V_{\text{cone}}} = \frac{6\pi r^3}{4\pi r^3} = \frac{3}{2}.

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Final Thoughts

Significance in Mathematics and Applications

1. Distance and Metric Spaces
This equation is fundamental in defining a Euclidean distance:
$ AD = \sqrt{(x - 1)^2 + y^2 + z^2} $.
The constraint $ AD^2 = 2 $ defines the locus of points at fixed squared distance from $ A $. These metrics are foundational in geometry, physics, and data science.

2. Optimization and Constraints
In optimization problems, curves or surfaces defined by $ (x - 1)^2 + y^2 + z^2 \leq 2 $ represent feasible regions where most solutions lie within a spherical boundary centered at $ A $. This is critical in constrained optimization, such as in support vector machines or geometric constraint systems.

3. Physics and Engineering
Spherical domains model wave propagation, gravitational fields, or signal coverage regions centered at a specific point. Setting a fixed squared distance constrains dynamic systems to operate within a bounded, symmetric volume.

4. Machine Learning
In autoencoders and generative models like GANs, spherical patterns help regularize latent spaces, promoting uniformity and reducing overfitting. A squared distance constraint from a central latent point ensures balanced sampling within a defined radius.

Why This Equation Matters in Coordinate Geometry

While $ (x - 1)^2 + y^2 + z^2 = 2 $ resembles simple quadratic forms, its structured form reveals essential properties:

  • Expandability: Expanding it gives $ x^2 + y^2 + z^2 - 2x + 1 = 2 $, simplifying to $ x^2 + y^2 + z^2 - 2x = 1 $, highlighting dependence on coordinate differences.
    - Symmetry: Invariant under rotations about the x-axis-through-A, enforcing rotational symmetry รƒยƒร‚ยขรƒย‚ร‚ย€รƒย‚ร‚ย” a key property in fields modeling isotropic phenomena.
    - Parameterization: Using spherical coordinates $ (r, \ heta, \phi) $ with $ r = \sqrt{2} $, $ \ heta $ angular, and $ \phi $ azimuthal, allows elegant numerical simulations.