°æ¹®»ç
¿À´Ã ³»°¡ º» »óÇ°
(1)
´Ý±â
È¸»ç¼Ò°³
È¸»ç¼Ò°³
ÀÎ»ç¸»
¿¬Çõ
¾ð·Ð¼ÓÀÇ °æ¹®»ç
Á¶Á÷µµ ¹× ¿¬¶ôÃ³
Ã£¾Æ¿À½Ã´Â±æ
¿Ã´ñ¸Å½º
¼öÇÐÀÚ
¼öÇÐ»ç
¼öÇÐ»ç¶û
´ëÇÐ¼öÇÐÈ¸
´ëÇÑ¼öÇÐ±³À°ÇÐÈ¸
ÀÚ·á½Ç
ÀÚ·á¸ðÀ½
Á¤¿ÀÇ¥
¸ñ·Ï
µ¿¿µ»ó
°ßº»½ÅÃ»
ÀÌº¥Æ®
¼îÇÎ¸ô
¼îÇÎ¸ô >
¼öÀÔµµ¼
±¹³»µµ¼
¼öÀÔµµ¼
Geometry: from Isometries to Special Relativity
¹«·á¹è¼Û
ÁöÀºÀÌ
:
Nam-Hoon Lee
ÃâÆÇ»ç
:
Springer-Verlag
ÆÇ¼ö
:
1st(2020)
ÆäÀÌÁö¼ö
:
258
ISBN
:
9783030421007
¿¹»óÃâ°íÀÏ
:
ÀÔ±ÝÈ®ÀÎÈÄ 2ÀÏ ÀÌ³»
ÁÖ¹®¼ö·®
:
°³
µµ¼°¡°Ý
:
69,000¿ø
( ¹«·á¹è¼Û )
Àû¸³±Ý
:
2,070 Point
This textbook offers a geometric perspective on special relativity, bridging Euclidean space, hyperbolic space, and Einstein’s spacetime in one accessible, self-contained volume. Using tools tailored to undergraduates, the author explores Euclidean and non-Euclidean geometries, gradually building from intuitive to abstract spaces. By the end, readers will have encountered a range of topics, from isometries to the Lorentz–Minkowski plane, building an understanding of how geometry can be used to model special relativity.
Beginning with intuitive spaces, such as the Euclidean plane and the sphere, a structure theorem for isometries is introduced that serves as a foundation for increasingly sophisticated topics, such as the hyperbolic plane and the Lorentz–Minkowski plane. By gradually introducing tools throughout, the author offers readers an accessible pathway to visualizing increasingly abstract geometric concepts. Numerous exercises are also included with selected solutions provided.
Geometry: from Isometries to Special Relativity offers a unique approach to non-Euclidean geometries, culminating in a mathematical model for special relativity. The focus on isometries offers undergraduates an accessible progression from the intuitive to abstract; instructors will appreciate the complete instructor solutions manual available online. A background in elementary calculus is assumed.
Nam-Hoon Lee
received his Ph.D. in mathematics from the University of Michigan in Ann Arbor after studying physics at Seoul National University as an undergraduate. His research interests include algebraic geometry, differential geometry, and the theory of relativity. He is now Professor of Mathematics Education at Hongik University in Seoul, South Korea.
1. Euclidean Plane
2. Sphere
3. Stereographic Projection and Inversions
4. Hyperbolic Plane.
5. Lorentz-Minkowski Plane
6. Geometry of Special Relativity
Answers to Selected Exercises
Index.
Introduction to Partial Di...
-Zachmanoglou-
(Dover)
Real Analysis Modern Techn...
-Folland-
(Wiley)
An Introductory English Gr...
-Stageberg & Oaks-
(Harcourt Brace)
ÇØ¼®ÇÐ ±³Àç ¹®ÀÇ
±³Àç ¹®ÀÇÇÕ´Ï´Ù.
9¹ø-10¹ø¿¡¼ W2°¡ Àß¸ø...
Complex Analysis (...
Advanced Calculus:...
Differential Geome...
Semantics, 3rd
Manual of American...
Number Theory in S...
Taming of the Shre...
Precalculus : Math...
American English: ...
Heisenberg Groups,...