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lemon (geometry)

{{Short description|Geometric shape}}

File:Geometric_lemon.jpg

In geometry, a lemon is a geometric shape that is constructed as the surface of revolution of a circular arc of angle less than half of a full circle rotated about an axis passing through the endpoints of the lens (or arc). The surface of revolution of the complementary arc of the same circle, through the same axis, is called an apple.

File:Standard_torus-spindle.png

The apple and lemon together make up a spindle torus (or self-crossing torus or self-intersecting torus). The lemon forms the boundary of a convex set, while its surrounding apple is non-convex.{{citation

| last = Kripac | first = Jiri

| date = February 1997

| doi = 10.1016/s0010-4485(96)00040-1

| issue = 2

| journal = Computer-Aided Design

| pages = 113–122

| title = A mechanism for persistently naming topological entities in history-based parametric solid models

| volume = 29}}{{citation

| last1 = Krivoshapko | first1 = S. N.

| last2 = Ivanov | first2 = V. N.

| contribution = Surfaces of Revolution

| doi = 10.1007/978-3-319-11773-7_2

| pages = 99–158

| publisher = Springer International Publishing

| title = Encyclopedia of Analytical Surfaces

| year = 2015}}

File:CFL football.jpg

The ball in North American football has a shape resembling a geometric lemon. However, although used with a related meaning in geometry, the term "football" is more commonly used to refer to a surface of revolution whose Gaussian curvature is positive and constant, formed from a more complicated curve than a circular arc.{{citation

| last1 = Coombes | first1 = Kevin R.

| last2 = Lipsman | first2 = Ronald L.

| last3 = Rosenberg | first3 = Jonathan M.

| doi = 10.1007/978-1-4612-1698-8

| page = 128

| publisher = Springer New York

| title = Multivariable Calculus and Mathematica

| year = 1998| isbn = 978-0-387-98360-8

}} Alternatively, a football may refer to a more abstract orbifold, a surface modeled locally on a sphere except at two points.{{citation

| last = Borzellino | first = Joseph E.

| doi = 10.1017/S0004972700016464

| issue = 3

| journal = Bulletin of the Australian Mathematical Society

| mr = 1274515

| pages = 353–364

| title = Pinching theorems for teardrops and footballs of revolution

| volume = 49

| year = 1994| doi-access = free

}}

Area and volume

The lemon is generated by rotating an arc of radius R and half-angle \phi_m less than \pi/2 about its chord. Note that \phi denotes latitude, as used in geophysics. The surface area is given by{{citation |last1=Verrall |first1=Steven C. |last2=Atkins |first2=Micah |last3=Kaminsky |first3=Andrew |last4=Friederick |first4=Emily |last5=Otto |first5=Andrew |last6=Verrall |first6=Kelly S. |last7=Lynch |first7=Peter |date=2023-01-23 |title=Ground State Quantum Vortex Proton Model |url=https://doi.org/10.1007/s10701-023-00669-y |journal=Foundations of Physics |language=en |volume=53 |issue=1 |pages=28 |doi=10.1007/s10701-023-00669-y |s2cid=256115776 |issn=1572-9516}}

:A=2\pi R^2\int_{-\phi_m}^{\phi_m}(\cos\phi-\cos\phi_m)d\phi

The volume is given by

:V=\pi R^3\int_{-\phi_m}^{\phi_m}(\cos\phi-\cos\phi_m)^2\cos\phi d\phi

These integrals can be evaluated analytically, giving

:A=4\pi R^2(\sin\phi_m-\phi_m\cos\phi_m)

:V=\tfrac{4}{3}\pi R^3\left[\sin^{3}\phi_m-\tfrac{3}{4}\cos\phi_m(2\phi_m-\sin2\phi_m)\right]

The apple is generated by rotating an arc of half-angle \phi_m greater than \pi/2 about its chord. The above equations are valid for both the lemon and apple.

See also

References

{{reflist}}

External links

  • {{MathWorld|title=Lemon Surface|urlname=LemonSurface|mode=cs2}}
  • [https://www.math.rug.nl/models/Serie5_nr2b.html Football shaped (spindle type) surface of positive constant curvature] in the University of Groningen model collection

Category:Geometric shapes