The Geometry of Relativity
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1 The Geometry of Relativity Tevian Dray Department of Mathematics Oregon State University OSU 4/27/15 Tevian Dray The Geometry of Relativity 1/27
2 Books The Geometry of Tevian Dray A K Peters/CRC Press 2012 ISBN: Differential Forms and the Geometry of Tevian Dray A K Peters/CRC Press 2014 ISBN: OSU 4/27/15 Tevian Dray The Geometry of Relativity 2/27
3 Trigonometry Circle Geometry Hyperbola Geometry x 2 +y 2 = r 2 ds 2 = dx 2 +dy 2 Φ r r cosφ, r sinφ 5 3 θ 4 rφ = arclength tanθ = 3 4 = cosθ = 4 5 OSU 4/27/15 Tevian Dray The Geometry of Relativity 3/27
4 Measurements Circle Geometry Hyperbola Geometry Width: θ 1 1 cosθ 1 cosθ θ Slope: y Apparent width > 1 y y 1 φ x m m 1 +m 2 tan(θ +φ) = tanθ+tanφ 1 tanθtanφ = m1+m2 1 m 1m 2 φ θ x x OSU 4/27/15 Tevian Dray The Geometry of Relativity 4/27
5 Rotations Circle Geometry Hyperbola Geometry y y A θ θ B x x OSU 4/27/15 Tevian Dray The Geometry of Relativity 5/27
6 Trigonometry Circle Geometry Hyperbola Geometry ds 2 = c 2 dt 2 +dx 2 ρ. ( ρcosh β, ρsinh β ) 4 3 β β 5 tanhβ = 3 5 = coshβ = 5 4 ρβ = arclength (coshβ 1;tanhβ < 1) OSU 4/27/15 Tevian Dray The Geometry of Relativity 6/27
7 Trigonometry Circle Geometry Hyperbola Geometry t t A ρ ρ sinh β β β B x x β ρ cosh β OSU 4/27/15 Tevian Dray The Geometry of Relativity 7/27
8 Length Contraction Circle Geometry Hyperbola Geometry t t t t x x x x l = l coshβ l l β l β l OSU 4/27/15 Tevian Dray The Geometry of Relativity 8/27
9 Time Dilation Circle Geometry Hyperbola Geometry ct ct x x OSU 4/27/15 Tevian Dray The Geometry of Relativity 9/27
10 Pole & Barn Circle Geometry Hyperbola Geometry A 20 foot pole is moving towards a 10 foot barn fast enough that the pole appears to be only 10 feet long. As soon as both ends of the pole are in the barn, slam the doors. How can a 20 foot pole fit into a 10 foot barn? barn frame -20 pole frame OSU 4/27/15 Tevian Dray The Geometry of Relativity 10/27
11 Relativistic Mechanics Circle Geometry Hyperbola Geometry A pion of (rest) mass m and (relativistic) momentum p = 3 4 mc decays into 2 (massless) photons. One photon travels in the same direction as the original pion, and the other travels in the opposite direction. Find the energy of each photon. [E 1 = mc 2, E 2 = 1 4 mc2 ] pc p0c sinhβ 0 p 2 c E 2 Β p 0 c Β E 0 E0c coshβ p0c sinhβ p0c p2c 0 Β E2 Β E0 E mc 2 0 E 0 Β E0c coshβ mc 2 0 p0c Β Β E0 E0c coshβ E0c coshβ Β Β p 0 c p0c sinhβ p 1 c E 1 p0c sinhβ p1c E1 OSU 4/27/15 Tevian Dray The Geometry of Relativity 11/27
12 Twin Paradox Circle Geometry Hyperbola Geometry One twin travels 24 light-years to star X at speed 24 25c; her twin brother stays home. When the traveling twin gets to star X, she immediately turns around, and returns at the same speed. How long does each twin think the trip took? β coshβ = 25 7 q 7 25 q = 7 coshβ = /25 Straight path takes longest! β 24 7 OSU 4/27/15 Tevian Dray The Geometry of Relativity 12/27
13 Addition of Velocities Circle Geometry Hyperbola Geometry v c = tanhβ tanh(α+β) = tanhα+tanhβ u 1+tanhαtanhβ = c + v c 1+ uv c 2 Einstein addition formula! OSU 4/27/15 Tevian Dray The Geometry of Relativity 13/27
14 Line Elements The Metric Differential Forms Geodesics Einstein s Equation a a dr 2 +r 2 dφ 2 dθ 2 +sin 2 θdφ 2 dβ 2 +sinh 2 βdφ 2 Black Hole: ds 2 = ( ) 1 2m r dt 2 + dr2 +r 2 dθ 2 +r 2 sin 2 θdφ 2 1 2m r ( Cosmology: ds 2 = dt 2 +a(t) 2 dr 2 1 kr +r 2( dθ 2 +sin 2 θdφ 2)) 2 s = 0 s = 1 flat Euclidean Minkowskian (SR) curved Riemannian Lorentzian (GR) OSU 4/27/15 Tevian Dray The Geometry of Relativity 14/27
15 Vector Calculus The Metric Differential Forms Geodesics Einstein s Equation ds 2 = d r d r Ý Ö Ö Ü ß Ö Ö Ö d r = dx î+dy ĵ = drˆr+r dφ ˆφ OSU 4/27/15 Tevian Dray The Geometry of Relativity 15/27
16 The Metric Differential Forms Geodesics Einstein s Equation Differential Forms in a Nutshell (R 3 ) Differential forms are integrands: ( 2 = 1) Products: f = f F = F d r F = F da f = f dv F G = F G d A F G = F GdV (0-form) (1-form) (2-form) (3-form) Exterior derivative: (d 2 = 0) df = f d r df = F d A d F = FdV d f = 0 OSU 4/27/15 Tevian Dray The Geometry of Relativity 16/27
17 The Metric Differential Forms Geodesics Einstein s Equation The Geometry of Differential Forms dx +dy r dr = x dx +y dy dx OSU 4/27/15 Tevian Dray The Geometry of Relativity 17/27
18 Geodesic Equation The Metric Differential Forms Geodesics Einstein s Equation Orthonormal basis: Connection: d r = σ i ê i ω ij = ê i dê j dσ i +ω i j σ j = 0 ω ij +ω ji = 0 Geodesics: v dλ = d r v = 0 Symmetry: d X d r = 0 = X v = const OSU 4/27/15 Tevian Dray The Geometry of Relativity 18/27
19 Einstein s Equation The Metric Differential Forms Geodesics Einstein s Equation Curvature: Ω i j = dω i j +ω i k ω k j Einstein tensor: γ i = 1 2 Ω jk (σ i σ j σ k ) G i = γ i = G i j σ j G = G i ê i = G i j σ j ê i = d G = 0 Field equation: G+Λd r = 8π T (curvature = matter) OSU 4/27/15 Tevian Dray The Geometry of Relativity 19/27
20 Cosmological Redshift Cosmology Curvature Acceleration Black Holes a = a(t) 1+z = a(t R) a(t E ) 1+ ȧ a s (redshift distance) OSU 4/27/15 Tevian Dray The Geometry of Relativity 20/27
21 Curvature Cosmology Curvature Acceleration Black Holes ds 2 = r 2 (dθ 2 +sin 2 θdφ 2 ) Tidal forces! OSU 4/27/15 Tevian Dray The Geometry of Relativity 21/27
22 Gravitational Lensing Cosmology Curvature Acceleration Black Holes perceived path actual path Earth Sun star OSU 4/27/15 Tevian Dray The Geometry of Relativity 22/27
23 Rindler Geometry Cosmology Curvature Acceleration Black Holes constant curvature = constant acceleration β ρ. ( ρcosh β, ρsinh β ) Ρ 0,Α v Ρ 0,Α Ρ const x = ρ coshα t = ρ sinhα Can outrun lightbeam! = ds 2 = dρ 2 ρ 2 dα 2 OSU 4/27/15 Tevian Dray The Geometry of Relativity 23/27
24 From Rindler to Minkowski Cosmology Curvature Acceleration Black Holes x t Α const Ρ 0,Α v x t Ρ const Ρ 0,Α u U 0 v u v V 0 U V u = α lnρ, v = α+lnρ ds 2 = du dv = d(t x)d(t+x) U = e u = ρe α, V = e v = ρe α OSU 4/27/15 Tevian Dray The Geometry of Relativity 24/27
25 From Schwarzschild to Kruskal Cosmology Curvature Acceleration Black Holes ds 2 = ( 1 2m r ) dt 2 + dr2 1 2m r +r 2 dθ 2 +r 2 sin 2 θdφ 2 r 2m u T r 0 r 2m U 0 r 2m v X u v r 2m V 0 U V r 0 ds 2 = 32m3 r e r/2m dudv OSU 4/27/15 Tevian Dray The Geometry of Relativity 25/27
26 From Schwarzschild to Kruskal Cosmology Curvature Acceleration Black Holes ds 2 = ( 1 2m r ) dt 2 + dr2 1 2m r +r 2 dθ 2 +r 2 sin 2 θdφ 2 r 2m u BH them us r 2m v u v WH ds 2 = 32m3 r e r/2m dudv OSU 4/27/15 Tevian Dray The Geometry of Relativity 25/27
27 Wormholes Cosmology Curvature Acceleration Black Holes Constant radius = constant acceleration! OSU 4/27/15 Tevian Dray The Geometry of Relativity 26/27
28 Wormholes Cosmology Curvature Acceleration Black Holes OSU 4/27/15 Tevian Dray The Geometry of Relativity 26/27
29 SUMMARY Special relativity is hyperbolic trigonometry! Spacetimes are described by line elements! Curvature = gravity! Geometry = physics! THE END OSU 4/27/15 Tevian Dray The Geometry of Relativity 27/27
The Geometry of Relativity
The Geometry of Relativity Tevian Dray Department of Mathematics Oregon State University http://www.math.oregonstate.edu/~tevian PNWMAA 4/11/15 Tevian Dray The Geometry of Relativity 1/25 Books The Geometry
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