Q.2/ The Zeeman components of 500nm spectral line are (0.0116 nm) apart when the magnetic field (1.00 T) is be applied. Find the (em) ratio for the electron from these data. Q.3/ Show that the magnetic moment of an electron in Bohr orbit of radius (rn) is proportional to Vr. Q.4/A sample for a certain element, is be inserted inside a magnetic field (B =0.3 T). What are the splits between Zeeman lines for the spectral line with wave length(4500 Ao)?
Q.2/ The Zeeman components of 500nm spectral line are (0.0116 nm) apart when the magnetic field (1.00 T) is be applied. Find the (em) ratio for the electron from these data. Q.3/ Show that the magnetic moment of an electron in Bohr orbit of radius (rn) is proportional to Vr. Q.4/A sample for a certain element, is be inserted inside a magnetic field (B =0.3 T). What are the splits between Zeeman lines for the spectral line with wave length(4500 Ao)?
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![Q.2/ The Zeeman components of 500nm spectral line are (0.0116 nm)
apart when the magnetic field (1.00 T) is be applied. Find the (em) ratio
for the electron from these data.
Q.3/ Show that the magnetic moment of an electron in Bohr orbit of
radius (rn) is proportional to vr.
Q.4/A sample for a certain element, is be inserted inside a magnetic
field (B =0.3 T). What are the splits between Zeeman lines for the
spectral line with wave length(4500 Ao)?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F349801cf-c1af-4552-b252-b1b294d6e253%2Fd6f08669-bf32-49e7-bfd2-a7ce61454215%2Fko77lls_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q.2/ The Zeeman components of 500nm spectral line are (0.0116 nm)
apart when the magnetic field (1.00 T) is be applied. Find the (em) ratio
for the electron from these data.
Q.3/ Show that the magnetic moment of an electron in Bohr orbit of
radius (rn) is proportional to vr.
Q.4/A sample for a certain element, is be inserted inside a magnetic
field (B =0.3 T). What are the splits between Zeeman lines for the
spectral line with wave length(4500 Ao)?
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