A domain in ferromagnetic iron is in the form of a cube of side length `10^-4m`. Estimate the number of iron atoms in the domain and the maximum possible dipole moment and magnetisation of the domain. The molecular mass of iron is `55g//"mole"`, and its density is `7*9g//cm^3`. Assume that each iron atom has a dipole moment of `9*27xx10^(-24)Am^2`.

A domain if ferromagnetic iron is in the form of cube of side length 1mum . Estimate the number of iron atoms in the domain and the maximum possible moment and magnetisation of the domain. The molecular mass iron is 55 g/mol and its density is 7.9g//cm^3 . Assume that each iron atom has a dipole moment of 9.27xx10^(-24) Am^2 .

A domain in a ferromagnetic substance is in the form of a cube of side length 1mum . If it contains 8 xx10^(10) atoms and each atomic dipole has a dipole moment of 9xx10^(-24) Am^2 , then the magnetization of the domain is

Estimate the speed of vertically falling rain drops from the following data. Radius of the drops=0.02cm, viscosity of air =1.8xx10^-4 poise, g=9.9ms^-2 and density of water =1000 kg m^-3 .

A cylindrical magnetic having a length of 7 cm and diameter 4 cm has a uniform magnetization of 6xx10^3 A//m Calculate the dipole moment.

Assume that each iron atom has a permaanent magnetic moment equal to 2 Bohr magnetons (1 Bohr magneton equals 9.27 xx 10^(-24) A m^2) . The density of atoms in iron is 8.52 xx 10^28 atoms m^(-3) . (a) Find the maximum magnetization I in a long cylinder of iron. (b) Find the maximum magnetic field B on the axis inside the cylinder.

An HCl molecule has a dipole moment of 3.4xx 10^(-30) cm . Assuming that equal and opposite charges lie on the two atoms to from a dipole, what is the magnitude of this charge? The separation between the two atoms of HCl is 1.0xx10^(-10)m .

Suppose the exact charge neutrality does hold not in a world and the electron has a charge 1% less in magnitude than the proton. Calculate the Coulomb force acting between two blocks of iron each of mass 1 kg separated by a distance of 1m. Number of protons in an iron atom =26 and 58 kg of iron contains 6xx10^26 atoms.

A sample of of paramagnetic salt contains 2.0xx10^(24) atomic dipoles each of dipole moment 1.5xx10^(-23)JT^(-1) . The sample is placed under a homogeneous magnetic field of 0.64 T , cooled to a temperature of 4.2 K . The degree of magnetic saturation achieved is equal to 15% . What is the total dipole moment of the sample for a magnetic field of 0.98 T and a temperature of 2.8 K ? (Assume Curie's law)

A cube of iron (density = 8000kg m^(-1) , specific heat capacity = 470g J kg^(-1)K^(-1) ) is heated to a high temperature and is placed on a larger block of ice at 0^(@)C . The cube melts the ice below it, displaces the water and sinks in the final equilibrium position its upper surface is just inside the ice. Calculate the initial temperature of the cube. Neglect any loss of heat outside the ice and the cube .The density of ice = 900 kg m^(-1) and the latent heat of fusion of ice = 3.36 xx 10^(5)J kg^(-1)

Answer the following questions . a. The earth's magnetic field varies from point is space. Does it also change with time ? It so , on what time scate does it change appreciably ? b. The earth's core is known to contain iron. Yet geologists do not regard this as a source of the earth's magnetism why ? c. The charged currents in the outer conducting regions of the earth's core are thought to be responsible for earth's magnetism . What might be the ' battery ' (i.e., the source of energy) to sustain these currents ? d. The earth may have even reversed the direction of its field several times during its history of 4 to 5 billion years. How can geologists know about the earth's field in such distant past ? e. The earth's field departs from its dipole substantially at large distances (greater than about 30,000 km) what agencies may be responsible for this distortion ? f. Interstellar space has an extremely weak magnetic field of the order of 10^(-12) T, Can such a weak field be of any significant consequence ? Explain. [Note : Exercise 2 is meant mainly to arouse your curiosity . Answers to some question above are tentative or unknown . Brief answers wherever possible are given at the end . For details , you should consult a good text on geomagnetism.]