differential geometry: curvature, maps, and pizza
TRANSCRIPT
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Differential Geometry: Curvature, Maps, and Pizza
Madelyne Ventura
University of Maryland
December 8th, 2015
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What is Differential Geometry and Curvature?
Differential Geometry studies the properties of curves and surfaces,and their higher dimensional analogs.
Curvature measures how fast a curve changes at a given point (ortime)
κg (t) = x′(t)y ′′(t)−x′′(t)y ′(t)(x′(t)2+y ′(t)2)3/2
In general, curvature of a curve can be described by the reciprocal ofthe radius of the closest approximating circle to the curve. κg = 1
R(t)
Figure 1: Curvature can be measured through osculating circles.
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What is Differential Geometry and Curvature?
Differential Geometry studies the properties of curves and surfaces,and their higher dimensional analogs.Curvature measures how fast a curve changes at a given point (ortime)
κg (t) = x′(t)y ′′(t)−x′′(t)y ′(t)(x′(t)2+y ′(t)2)3/2
In general, curvature of a curve can be described by the reciprocal ofthe radius of the closest approximating circle to the curve. κg = 1
R(t)
Figure 1: Curvature can be measured through osculating circles.
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What is Differential Geometry and Curvature?
Differential Geometry studies the properties of curves and surfaces,and their higher dimensional analogs.Curvature measures how fast a curve changes at a given point (ortime)
κg (t) = x′(t)y ′′(t)−x′′(t)y ′(t)(x′(t)2+y ′(t)2)3/2
In general, curvature of a curve can be described by the reciprocal ofthe radius of the closest approximating circle to the curve. κg = 1
R(t)
Figure 1: Curvature can be measured through osculating circles.
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![Page 5: Differential Geometry: Curvature, Maps, and Pizza](https://reader036.vdocument.in/reader036/viewer/2022082215/58a1a72c1a28ab671b8c417c/html5/thumbnails/5.jpg)
What is Differential Geometry and Curvature?
Differential Geometry studies the properties of curves and surfaces,and their higher dimensional analogs.Curvature measures how fast a curve changes at a given point (ortime)
κg (t) = x′(t)y ′′(t)−x′′(t)y ′(t)(x′(t)2+y ′(t)2)3/2
In general, curvature of a curve can be described by the reciprocal ofthe radius of the closest approximating circle to the curve. κg = 1
R(t)
Figure 1: Curvature can be measured through osculating circles.
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Fundamental Theorem of Planar Curves
Given the curvature function κg (t), there exists a regular curveparametrized by arc length ~x : I → R2 that has κg (t) as its curvaturefunction. Furthermore, the curve is uniquely determined up to a rigidmotion in the plane.
In other words, if you have the curvature function of a planar curve,you can work backwards to parametrize the curve
Curvature Curve
0 Line1 Unit Circle
1(1+t2)3/2
Parabola
Table 1: Examples of curves and their curvatures.
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Principal Curvature
At every point on a surface, there are two normal vectors, we choseone and declare it to be the positive direction.
Sectional curvature is created using the chosen normal vector and thetangent vector at each point
Figure 2: An infinite amount of sections are created.
Infinite amount of normal sections determine the curvature function
Out of all the sectional curvatures, there is a κmin and a κmax
The directions of the planes created by κmin and κmax are called theprincipal directions.
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Principal Curvature
At every point on a surface, there are two normal vectors, we choseone and declare it to be the positive direction.
Sectional curvature is created using the chosen normal vector and thetangent vector at each point
Figure 2: An infinite amount of sections are created.
Infinite amount of normal sections determine the curvature function
Out of all the sectional curvatures, there is a κmin and a κmax
The directions of the planes created by κmin and κmax are called theprincipal directions.
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Gaussian Curvature
Gaussian Curvature is calculated by the product of the principalcurvatures. K = κminκmax.
Gaussian curvature is preserved under isometries, which aretransformations that do not stretch or contract the distances. Thisfact is called Gauss’s Theorema Egregium.
Figure 3: Positive, negative, and zero curvature respectively
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Gaussian Curvature
Gaussian Curvature is calculated by the product of the principalcurvatures. K = κminκmax.Gaussian curvature is preserved under isometries, which aretransformations that do not stretch or contract the distances. Thisfact is called Gauss’s Theorema Egregium.
Figure 3: Positive, negative, and zero curvature respectively
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Gaussian Curvature
Gaussian Curvature is calculated by the product of the principalcurvatures. K = κminκmax.Gaussian curvature is preserved under isometries, which aretransformations that do not stretch or contract the distances. Thisfact is called Gauss’s Theorema Egregium.
Figure 3: Positive, negative, and zero curvature respectivelyMadelyne Ventura (University of Maryland) Curvature, Maps, and Pizza December 8th, 2015 5 / 7
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Gaussian Curvature Continued
Sphere
K = κminκmax = 1r2> 0
Hyperbolic Paraboloid
K = κminκmax = −1r2< 0
Cylinder
K = κminκmax = 0 · κmin = 0
Figure 4: One-SheetedHyperbolic Paraboloid hasnegative curvature.
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Applications of Gaussian Curvature
Figure 5: Maps distort distance due to having no curvature
Figure 6: Gaussian Curvature allows us to hold pizza correctly
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Applications of Gaussian Curvature
Figure 5: Maps distort distance due to having no curvature
Figure 6: Gaussian Curvature allows us to hold pizza correctly
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