Compact objects and black-holes 2. Consider three compact objects in the form of: a white dwarf of 0.5Mo; a neutron star of 1.4Mo and a black-hole of 50 Mo. The radii of the white dwarf and neutron star are: Rwp 5.5- 106 m and and RNS 10 Km. |3D (a) Determine the radii of curvature Re= c/g (where c is the speed of light and g is the local gravitational acceleration) around cach object specifying which radius you assume for the BH.
Compact objects and black-holes 2. Consider three compact objects in the form of: a white dwarf of 0.5Mo; a neutron star of 1.4Mo and a black-hole of 50 Mo. The radii of the white dwarf and neutron star are: Rwp 5.5- 106 m and and RNS 10 Km. |3D (a) Determine the radii of curvature Re= c/g (where c is the speed of light and g is the local gravitational acceleration) around cach object specifying which radius you assume for the BH.
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Transcribed Image Text:Compact objects and black-holes
2. Consider three compact objects in the form of: a white dwarf of 0.5Mo; a
neutron star of 1.4Mo and a black-hole of 50 Mo. The radii of the white
dwarf and neutron star are: Rwp 5.5 106 m and and RNS
10 Km.
(a) Determine the radii of curvature Re = c2/g (where c is the speed of light
and g is the local gravitational acceleration) around cach objcct specifying
which radius you assume for the BH.
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