ituations (a) and (b). 13. Consider the following very rough model of a beryllium atom. The nucleus has four protons and four neutrons confined to a small volume of radius 10 1s electrons make a spherical charge cloud at an average distance of 1-3x 10" m from the nucleus, whereas the two 2s electrons make another spherical cloud at an average distance of 5-2 x 10 the electric field at (a) a point just inside the 1s cloud and (b) a point just inside the 2s cloud. 14. Find the magnitude of the electria fiold - 15 m. The two -11 m from the nucleus. Find
ituations (a) and (b). 13. Consider the following very rough model of a beryllium atom. The nucleus has four protons and four neutrons confined to a small volume of radius 10 1s electrons make a spherical charge cloud at an average distance of 1-3x 10" m from the nucleus, whereas the two 2s electrons make another spherical cloud at an average distance of 5-2 x 10 the electric field at (a) a point just inside the 1s cloud and (b) a point just inside the 2s cloud. 14. Find the magnitude of the electria fiold - 15 m. The two -11 m from the nucleus. Find
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Transcribed Image Text:the situations (a) and (b).
13. Consider the following very rough model of a beryllium
atom. The nucleus has four protons and four neutrons
confined to a small volume of radius 10
-15
m. The two
1s electrons make a spherical charge cloud at an average
-11
distance of 1-3x 10
m from the nucleus, whereas the
two 2s electrons make another spherical cloud at an
average distance of 5-2 x 10
the electric field at (a) a point just inside the 1s cloud
and (b) a point just inside the 2s cloud.
-11
m from the nucleus. Find
14. Find the magnitude of the electric fiold ot
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