Imagine that an electron revolves around a circle of the radius `5.3xx10^(-11)m` with a linear speed of `7.5xx10^4 ms^(-1)` in a hydrogen atom. The magnetic field produced at the centre of the circle, due to the electron, is

An electron revolves in a circle of radius 0.4 A^(0) ith a speed of 10^6 ms^(-1) in a hydrogen atom. The magnetic field produced at the centre of the orbit due to motion of the electron, in tesla, is [mu_(0)=4pixx10^(-7)H//m]

An electron revolves in a circle of radius 0.4 A with a speed of 1 0^(6)ms^(-1) in a hydrogen atom. The magnetic field produced at the centre of the orbit due to the motion of the electron (in tesla) is [mu_(0)=4pixx10^(-7)Hm^(-1) , charge on the electron= 1.6xx10^(-19)C]

Electron is rotating in circular orbit with radius 5.2xx10^(-11)m and with linear speed 2xx10^(6)ms^(-1) in an hydrogen atom around the proton. Find the magnetic field produced at the centre of the orbit.

An electron revolves in a circle of radius 0.4 Å with a speed of 10^(5)m//s . The magnitude of the magnetic field produced at the centre of the circular path due to the motion of the electron in W//m^(2) is

The radius of the first electron orbit of a hydrogen atom is 0.5Å . The electron moves in this orbit with a uniform speed of 2.2xx10^(6)m.s^(-1) . What is the magnetic field produced at the centre of the nucleus due to the motion of this electron?

The electron in a hydrogen atom moves in circular orbit of radius 5xx10^(-11)m with a speed of 0.6pixx10^(6)m//s then

The electron in a hydrogen atom moves in circular orbit of radius 5xx10^(-11)m with a speed of 0.6pixx10^(6)m//s then