Just as in problem 3 above, a neutral molecule has a dipole moment of 5 Debyes (1.6E-29 Cm) pointing in the x direction. It can be modeled as two charges +e and -e separated from one another by 1E-10 meters (1 angstrom), straddling the origin along the x axis, at x-0. An electra is located on the y axis at y=10 angstroms. What is the force (both magnitude and direction) on the electron by the dipole? e (o, 108) ---> x e (x =0.5Å,y=o) 1 m and the total charge

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4) Just as in problem 3 above, a neutral molecule has a dipole moment of 5 Debyes (1.6E-29 Cm)
pointing in the x direction. It can be modeled as two charges +e and -e separated from one
another by 1E-10 meters (1 angstrom), straddling the origin along the x axis, at x-0. An electron
is located on the v axis at y=10 angstroms. What is the force (both magnitude and direction) on
the electron by the dipole?
(0,108)
----> x
e Cx =0.5Å,y-0)
Tho radius of the ring is 1 m, and the total charge
o is located on
Transcribed Image Text:4) Just as in problem 3 above, a neutral molecule has a dipole moment of 5 Debyes (1.6E-29 Cm) pointing in the x direction. It can be modeled as two charges +e and -e separated from one another by 1E-10 meters (1 angstrom), straddling the origin along the x axis, at x-0. An electron is located on the v axis at y=10 angstroms. What is the force (both magnitude and direction) on the electron by the dipole? (0,108) ----> x e Cx =0.5Å,y-0) Tho radius of the ring is 1 m, and the total charge o is located on
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