Consider the line element of the sphere of radius a: ds² = a² (do² + sin 20 20 do²). The only non-vanishing Christoffel symbols are го =-sin cos 0, ΓΦ θα =1ø 60 = 1 tan a) Write down the metric and the inverse metric, and use the definition (+9µv) =гºvp гр μν 1 Оро to reproduce the results written above for r ΦΟ and Fo 06 [You can also check that the other Christoffel symbols vanish, for practice, but this will not be marked.] b) Write down the two components of the geodesic equation. c) The geodesics of the sphere are great circles. Thinking of 0 = 0 as the North pole and 0 = π as the South pole, find a set a solutions to the geodesic equation corresponding to meridians, and also the solution corresponding to the equator.
Consider the line element of the sphere of radius a: ds² = a² (do² + sin 20 20 do²). The only non-vanishing Christoffel symbols are го =-sin cos 0, ΓΦ θα =1ø 60 = 1 tan a) Write down the metric and the inverse metric, and use the definition (+9µv) =гºvp гр μν 1 Оро to reproduce the results written above for r ΦΟ and Fo 06 [You can also check that the other Christoffel symbols vanish, for practice, but this will not be marked.] b) Write down the two components of the geodesic equation. c) The geodesics of the sphere are great circles. Thinking of 0 = 0 as the North pole and 0 = π as the South pole, find a set a solutions to the geodesic equation corresponding to meridians, and also the solution corresponding to the equator.
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![Consider the line element of the sphere of radius a:
ds² = a² (do² + sin 20
20 do²).
The only non-vanishing Christoffel symbols are
го
=-sin cos 0,
ΓΦ
θα
=1ø
60 =
1
tan
a) Write down the metric and the inverse metric, and use the definition
(+9µv) =гºvp
гр
μν
1
Оро
to reproduce the results written above for r
ΦΟ
and Fo
06 [You can also check that the other
Christoffel symbols vanish, for practice, but this will not be marked.]
b) Write down the two components of the geodesic equation.
c) The geodesics of the sphere are great circles. Thinking of 0 = 0 as the North pole and 0 = π
as the South pole, find a set a solutions to the geodesic equation corresponding to meridians, and
also the solution corresponding to the equator.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe8acdd0b-a22b-47a7-80cf-5c140dd58141%2F74229903-a60d-42d8-aeb7-0346f4650457%2Fv12pudq_processed.png&w=3840&q=75)
Transcribed Image Text:Consider the line element of the sphere of radius a:
ds² = a² (do² + sin 20
20 do²).
The only non-vanishing Christoffel symbols are
го
=-sin cos 0,
ΓΦ
θα
=1ø
60 =
1
tan
a) Write down the metric and the inverse metric, and use the definition
(+9µv) =гºvp
гр
μν
1
Оро
to reproduce the results written above for r
ΦΟ
and Fo
06 [You can also check that the other
Christoffel symbols vanish, for practice, but this will not be marked.]
b) Write down the two components of the geodesic equation.
c) The geodesics of the sphere are great circles. Thinking of 0 = 0 as the North pole and 0 = π
as the South pole, find a set a solutions to the geodesic equation corresponding to meridians, and
also the solution corresponding to the equator.
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