siyulian.blogspot.com
Mathematica
http://siyulian.blogspot.com/2006/07/3-7-21.html
Gauss's theorema egregium states that the Gaussian curvature of a surface embedded in three-space may be understood intrinsically to that surface. Residents of the surface may observe the Gaussian curvature of the surface without ever venturing into full three-dimensional space; they can observe the curvature of the surface they live in without even knowing about the three-dimensional space in which they are embedded. Wednesday, July 05, 2006. So i'm 21 now. Yeah. Posted by Siyu @. Email me about math!
siyulian.blogspot.com
Mathematica
http://siyulian.blogspot.com/2005_03_01_archive.html
Gauss's theorema egregium states that the Gaussian curvature of a surface embedded in three-space may be understood intrinsically to that surface. Residents of the surface may observe the Gaussian curvature of the surface without ever venturing into full three-dimensional space; they can observe the curvature of the surface they live in without even knowing about the three-dimensional space in which they are embedded. Tuesday, March 29, 2005. The great Sir Issac Newton stated in his Third Law of motion:.
siyulian.blogspot.com
Mathematica
http://siyulian.blogspot.com/2004_09_01_archive.html
Gauss's theorema egregium states that the Gaussian curvature of a surface embedded in three-space may be understood intrinsically to that surface. Residents of the surface may observe the Gaussian curvature of the surface without ever venturing into full three-dimensional space; they can observe the curvature of the surface they live in without even knowing about the three-dimensional space in which they are embedded. Thursday, September 23, 2004. Assume f is continuous: Let U a subset of R m be open....
siyulian.blogspot.com
Mathematica
http://siyulian.blogspot.com/2005_02_01_archive.html
Gauss's theorema egregium states that the Gaussian curvature of a surface embedded in three-space may be understood intrinsically to that surface. Residents of the surface may observe the Gaussian curvature of the surface without ever venturing into full three-dimensional space; they can observe the curvature of the surface they live in without even knowing about the three-dimensional space in which they are embedded. Thursday, February 24, 2005. Sigh I didn't think I will be really sad about basketball.
siyulian.blogspot.com
Mathematica
http://siyulian.blogspot.com/2004_07_01_archive.html
Gauss's theorema egregium states that the Gaussian curvature of a surface embedded in three-space may be understood intrinsically to that surface. Residents of the surface may observe the Gaussian curvature of the surface without ever venturing into full three-dimensional space; they can observe the curvature of the surface they live in without even knowing about the three-dimensional space in which they are embedded. Saturday, July 24, 2004. 2 R n, C n are both subspaces of S. (n being any real). Thursd...
siyulian.blogspot.com
Mathematica
http://siyulian.blogspot.com/2005_01_01_archive.html
Gauss's theorema egregium states that the Gaussian curvature of a surface embedded in three-space may be understood intrinsically to that surface. Residents of the surface may observe the Gaussian curvature of the surface without ever venturing into full three-dimensional space; they can observe the curvature of the surface they live in without even knowing about the three-dimensional space in which they are embedded. Thursday, January 27, 2005. Basketball star Shanille Oâ Kealâ s team statisticiankeeps ...
siyulian.blogspot.com
Mathematica
http://siyulian.blogspot.com/2006/11/state-of-disorder.html
Gauss's theorema egregium states that the Gaussian curvature of a surface embedded in three-space may be understood intrinsically to that surface. Residents of the surface may observe the Gaussian curvature of the surface without ever venturing into full three-dimensional space; they can observe the curvature of the surface they live in without even knowing about the three-dimensional space in which they are embedded. Wednesday, November 08, 2006. Posted by Siyu @. Comments: Post a Comment.
siyulian.blogspot.com
Mathematica
http://siyulian.blogspot.com/2005/11/theorem-of-day-13112005.html
Gauss's theorema egregium states that the Gaussian curvature of a surface embedded in three-space may be understood intrinsically to that surface. Residents of the surface may observe the Gaussian curvature of the surface without ever venturing into full three-dimensional space; they can observe the curvature of the surface they live in without even knowing about the three-dimensional space in which they are embedded. Sunday, November 13, 2005. Theorem of the Day - 13/11/2005. Posted by Siyu @.
siyulian.blogspot.com
Mathematica
http://siyulian.blogspot.com/2004_05_01_archive.html
Gauss's theorema egregium states that the Gaussian curvature of a surface embedded in three-space may be understood intrinsically to that surface. Residents of the surface may observe the Gaussian curvature of the surface without ever venturing into full three-dimensional space; they can observe the curvature of the surface they live in without even knowing about the three-dimensional space in which they are embedded. Thursday, May 20, 2004. Ah didn't finish GEB, oh well, in China now, can only think mat...
siyulian.blogspot.com
Mathematica
http://siyulian.blogspot.com/2006/01/monotonically-decreasing-function.html
Gauss's theorema egregium states that the Gaussian curvature of a surface embedded in three-space may be understood intrinsically to that surface. Residents of the surface may observe the Gaussian curvature of the surface without ever venturing into full three-dimensional space; they can observe the curvature of the surface they live in without even knowing about the three-dimensional space in which they are embedded. Wednesday, January 25, 2006. A monotonically decreasing function. Haha, well that's pro...