In hydrogen atom, the electron is making `6.6xx10^(15)` revolution per second in a circular path of radius `0.53A^@`. What is the magnetic induction produced at the centre of the orbit?

In hydrozen atom, the electron is making 6.6xx10^(15) revolution per second in a circular path of radius 0.53A^@ . What is the magnetic induction produced at the centre of the orbit?

In a hydrogen atom the electron is making 4 xx 10^(7) revolution per minute in a path of radius 0.5 A^(@) . Find the magnetic field produced at the centre of orbit.

A point charge 3.2 xx 10^(-19) C " makes " 7 xx 10^(15) revolutions per second in a circular path of radius 1 Å . Calculate the magnetic induction at the centre of the circular path.

In hydrogen atom, the electron is making 6.6xx10^(15) rev//sec around the nucleus in an orbit of radius 0.528 A . The magnetic moment (A-m^(2)) will be

An electron makes ( 3 xx 10^5) revolutions per second in a circle of radius 0.5 angstrom. Find the magnetic field B at the centre of the circle.

In hydrogen atom, the electron makes 6.6 xx 10^(15) revolutions per second around the nucleus in an orbit of radius 0.5 xx 10^(-10)m . It is equivalent to a current nearly

In an atom the electron has a time period of 0.16times10^(-15)s in a circular orbit of radius 0.5A^(@) .The magnetic induction at the centre of the orbit will be (in Tesla)

A particle carrying a charge equal to 100 times the charge on an electron is rotating per second in a circular path of radius 0.8 metre . The value of the magnetic field produced at the centre will be ( mu_(0)= permeability for vacuum)

A charge of 10^(-6)C is describing a circular path of radius 1cm making 5 revolution per second. The magnetic induction field at the centre of the circle is

An electron moves with a uniform speed of 1.8 xx 10^(6) m s^(-1) in a circular orbit of radius 0.8 Å . Calculate the magnetic induction at the centre of orbit.