Calculate the magnitude of the magnetic moment associated with each atom of nickel (Ni)

A magnetic dipole with a dipole moment of magnitude 0.0290 J/T is released from rest in...

A magnetic dipole with a dipole moment of magnitude 0.0290 J/T is released from rest in a uniform magnetic field of magnitude 54.3 mT. The rotation of the dipole due to the magnetic force on it is unimpeded. When the dipole rotates through the orientation where its dipole moment is aligned with the magnetic field, its kinetic energy is 0.678 mJ. (a) What is the initial angle between the dipole moment and the magnetic field? (b) What is the angle...

The magnetic quantum number is associated with: Select one: a. The spin moment of an electron....

The magnetic quantum number is associated with: Select one: a. The spin moment of an electron. b. The electron subshells. c. Bohr energy levels. d. The number of electron orbitals in each subshell.

A coil with a magnetic moment of 1.41 A?m2 is oriented initially with its magnetic moment...

A coil with a magnetic moment of 1.41 A?m2 is oriented initially with its magnetic moment antiparallel to a uniform magnetic field of magnitude 0.845 T . Part A What is the change in potential energy of the coil when it is rotated 180 ? so that its magnetic moment is parallel to the field?

All free electrons have a constant magnetic dipole moment with a magnitude of 9.28 × 10-24...

All free electrons have a constant magnetic dipole moment with a magnitude of 9.28 × 10-24 J/T. A) What is the magnetic force between two electrons separated by 0.14 nm (the width of a small atom), if the dipole moments are directed along a common line (like two bar magnets end-to-end)? In Newtons B) Now evaluate the force of electrical repulsion between two electrons at the same distance, assuming the electrons are both point charges, using Coulomb's Law. What is...

i) [Ni(OH2)6]Cl2, A, is pale green and has a magnetic moment of 2.83 B.M. It reacts...

i) [Ni(OH2)6]Cl2, A, is pale green and has a magnetic moment of 2.83 B.M. It reacts with an excess of PPh3 in ethanol to yield a dark green solid, B, which has a magnetic susceptibility of 0.00334 cm3 mol-1 at 298 K. Reaction of A with an excess of P(n-Bu)3 produces a bright red diamagnetic solid C. Identify B and C and account for the magnetic properties of A, B and C.

The formation constant, Kf, for Ni(NH3)6 (charge -1) is 5.5e8. Calculate the concentration of free nickel...

The formation constant, Kf, for Ni(NH3)6 (charge -1) is 5.5e8. Calculate the concentration of free nickel ion in a solution that contains .012M Ni2+ and 1.0M NH3.

Gadolinium element exhibits as ferromagnetic below 16° C with 7.1 Bohrmagneton per atom. Calculate the magnetic...

Gadolinium element exhibits as ferromagnetic below 16° C with 7.1 Bohrmagneton per atom. Calculate the magnetic moment per gram. Calculate saturation magnetization when Atomic weight of Gadolinium is 157. 26 and its density is 7.8 X 10 3 kg /m3. I. What does magnetic moment per gram mean? II. In this scenario, how saturation magnetization could be increased or decreased? III. How this increase or decrease affects the response of the Gadolinium?

Suppose that the dipole moment associated with an iron atom of an iron bar is 2.5...

Suppose that the dipole moment associated with an iron atom of an iron bar is 2.5 × 10-23 J/T. Assume that all the atoms in the bar, which is 5.6 cm long and has a cross-sectional area of 1.4 cm2, have their dipole moments aligned. (a) What is the dipole moment of the bar? (b) What torque must be exerted to hold this magnet perpendicular to an external field of 2.0 T? (The density of iron is 7.9 g/cm3 and...

The electron in a hydrogen atom can be thought of as orbiting around the nucleus (a...

The electron in a hydrogen atom can be thought of as orbiting around the nucleus (a single proton) in a circular orbit of radius 5.28×10−11m  with a velocity of constant magnitude 2.190×106m/s . At t=  0s  a hydrogen atom is placed in a vacuum chamber that is filled with a uniform magnetic field of magnitude 3.3×1011T  pointing in the positive z -direction. The hydrogen atom is oriented such that its electron is orbiting counter-clockwise in the xy -plane at t=  0s . What is the...

An atom in a state with ? = 1 emits a photon with wavelenght 600 nm...

An atom in a state with ? = 1 emits a photon with wavelenght 600 nm as it decays to a state with ? = 0. If the atom is placed in a magnetic field with magnitude B = 2.00 T, what are the shifts in the energy levels and in the wavelenght that result from the interaction between the atom’s orbital magnetic moment and the magnetic field