- #1
Jack3145
- 14
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Let's say there is a small object heading towards Earth (it will burn up). It is first observed at:
x^{\\mu}=[x^{1},x^{2},x^{2},x^{4}]=[x_{0},y_{0},z_{0},t_{0}]
with a velocity:
V_{v}=[v_{1},v_{2},v_{3},v_{4}]
The metric is:
ds^{2} = dx^{2} + dy^{2} + dz^{2} -c^{2}*dt^{2}
g_{\\mu\\v} = \\left(\\begin{array}{cccc}<BR>1 & 0 & 0 & 0\\\\<BR>0 & 1 & 0 & 0\\\\<Br>0 & 0 & 1 & 0\\\\<BR>\\\\<BR>0 & 0 & 0 & 1<BR>\\end{array})\\right
Affinity is:
\\Gamma^{\\rho}{\\mu\\v} = 0
Riemann Curvature tensor is:
R^{\\rho}{\\mu\\v\\sigma} = 0
Ricci Tensor is:
R{\\mu\\sigma} = 0
My Question is how do you make a geodesic path from the metric and initial velocity?
V_{v} = x^{\\mu}*g_{\\mu\\v} and make incremental steps?
x^{\\mu}=[x^{1},x^{2},x^{2},x^{4}]=[x_{0},y_{0},z_{0},t_{0}]
with a velocity:
V_{v}=[v_{1},v_{2},v_{3},v_{4}]
The metric is:
ds^{2} = dx^{2} + dy^{2} + dz^{2} -c^{2}*dt^{2}
g_{\\mu\\v} = \\left(\\begin{array}{cccc}<BR>1 & 0 & 0 & 0\\\\<BR>0 & 1 & 0 & 0\\\\<Br>0 & 0 & 1 & 0\\\\<BR>\\\\<BR>0 & 0 & 0 & 1<BR>\\end{array})\\right
Affinity is:
\\Gamma^{\\rho}{\\mu\\v} = 0
Riemann Curvature tensor is:
R^{\\rho}{\\mu\\v\\sigma} = 0
Ricci Tensor is:
R{\\mu\\sigma} = 0
My Question is how do you make a geodesic path from the metric and initial velocity?
V_{v} = x^{\\mu}*g_{\\mu\\v} and make incremental steps?
Last edited:
