In a hydrogen atom, the electron revolves round the nucleus in a circular orbit of radius `0.5 Å` at a frequency of `5xx10^(15)` rev/second. What is the effective magnetic dipole moment?

In Bohr model of hydrogen atom , the electron revolves around the nucleus in a circular orbit of radius 5.1 xx 10^(-11)m at a frequency of 6.8 xx 10^(15) revolutions per second. Find the equivalent current at may point on the orbit of the electron

In a Bohr model of hydrogen atom, the electron circulates around the nucleus in the path of radius 5.1 xx 10^-11m at a frequency of 6.8 xx 10^15 rev//s . Calculate the magnetic Induction B at the centre of the orbit. What is the equivalent dipole moment ?

In Bohr's model if hydrogen atom, the electron circulates around nucleus in a path of radius 0.5overset@A at a frequency of 6.8 xx 10^15 rev//s . The magnetic field at the centre will be

If an electron revolves in the circular path of radius 0.5A^(@) at a frequency of 5xx10^(15) cycles/sec. The equivalent electric current is

If an electron revolves in the circular path of radius 0.5A^(@) at a frequency of 5xx10^(15) cycles/sec. The equivalent electric current is

In Bohr's model of hydrogen atom, the electron circulats around nucleus on a path of radius 0.53A^@ at a frequency of 6.8 xx 10^15 rev//sec . Calculate magnetic field induction at the centre of the nucleus. What is the effective magnetic dipole moment?

In the Bohr model of the hydrogen atom, the electron circuulates around the nucleus in a path of radius 5xx10^-11m at a frequency of 6.8xx10^15Hz . a. What value of magnetic field is set up at the centre of the orbit? b. What is the equivalent magnetic dipole moment?

In the Bohr model of the hydrogen atom, the electron circuulates around the nucleus in a path of radius 5xx10^-11m at a frequency of 6.8xx10^15Hz . a. What value of magnetic field is set up at the centre of the orbit? b. What is the equivalent magnetic dipole moment?