06) Suppose a paramagnetic system that is under the action of an auxiliary (magnetic) field H....
06) Suppose a paramagnetic system that is under the action of an auxiliary (magnetic) field H. Thus, the work involved, it has to be that the work involved in a reversible process is described as đW = 10Hdm. where m is the total magnetic dipole moment of the system and u0 is the magnetic permeability of the vacuum. a) Determine the expression of the differential du of the internal energy U and indicate the two independent natural variables associated with internal energy. b) From the differential dU of internal energy U and using appropriate Legendre transforms, determine the differentials dE, dF and dG associated with enthalpy E and free energies of Helmholtz F and Gibbs G, respectively. Indicate the two ndependent natural variables associated with each thermodynamic potential. Use the analogy with the hydrostatic system to identify the independent variables. c) From the relations obtained in items (a) and (b), determine the 8 equations of state, that is, the expressions of T, S, H and m in terms of partial derivatives of the thermodynamic potentials, and the 4 Maxwell relations associated with the system. d) Determine one of the possible TdS equations for this system. Remember that TDS equations must be written in terms of appropriate thermal capacities and partial derivatives involving the thermodynamic variables T, m and H. XmH Xm a'/T e) A certain paramagnetic material obeys Curie's law, i.e., Xm where is the magnetic susceptibility of the material and a' is a constant. Since the magnetization M and volume V of the system is constant, we have that m = aH/T , where a is a constant. Determine the relationship between temperatures T1 and T2 of the material in an adiabatic process of changing the applied magnetic field from H1 to H2. Consider that the thermal capacity involved is constant.
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06) Suppose a paramagnetic system that is under the action of an
auxiliary (magnetic) field H....
06) Suppose a paramagnetic system that is under the action of an auxiliary (magnetic) field H....
06) Suppose a paramagnetic system that is under the action of an auxiliary (magnetic) field H. Thus, the work involved, it has to be that the work involved in a reversible process is described as đW = 10Hdm. where m is the total magnetic dipole moment of the system and u0 is the magnetic permeability of the vacuum. a) Determine the expression of the differential du of the internal energy U and indicate the two independent natural variables associated with...
Paramagnetic materials present a magnetic behavior described by Curie's equation: where M is the magnetization of...
Paramagnetic materials present a magnetic behavior described by
Curie's equation:
where M is the magnetization of the material, H is the external
magnetic field in Tesla, C is a constant and T is the
temperature.
(a) Indicate whether M and H are intensive or extensive
properties. Explain.
(b) Write the form of the configuration work, dw, for this
system.
(c) Find an expression for the work that has to be done on the
system to change its magnetization from 0...
The energy of a magnetic moment in a magnetic field is . A certain paramagnetic salt contai...
The energy of a magnetic moment in a magnetic field is . A certain paramagnetic salt contains 1025 magnetic moments per m3. Each one has a value , due to the atom's spin. As the spin is 1/2, there only are two possible states and the magnetic moments can be parallel or antiparallel to the field. Each magnetic moment belongs to one distinguishable atom. A 1 cm3 sample of this salt is placed in a electromagnet producing a uniform magnetic...
02) Consider a hydrostatic system represented by the thermodynamic variables volume V, pressure P and temperature...
02) Consider a hydrostatic system represented by the thermodynamic variables volume V, pressure P and temperature T. a) Consider entropy S = S(T, V) and derive the equation TdS. Tas = Cvat +T (1) dV. V Show that this equation can be written as follows BT TdS = CydT + PDV where Cv is the thermal capacity at constant volume, B is the isobaric expansiveness and K is isothermal compressibility: b) Consider a gas described by the equation of state...
4. (25 pts) The Gibb's free energy of a system of N particles is given by,...
4. (25 pts) The Gibb's free energy of a system of N particles is given by, G(T,p)=-Nk T In“- (a) dG = ? (write in differential form similar to dU = TDS - pdV) (b) Find expressions for S and V written as partial derivatives with respect to G. (c) Compute the constant pressure heat capacity Cp of the system: C=T(dS/dT), Hint: Use your expression for S derived in (b) above, 3333333 (d) Extract the equation of state for this...
The thermodynamic state of a soap film can be described by state variables (T, S) and...
The thermodynamic state of a soap film can be described by state variables (T, S) and (σ, A), where σ and A are the surface tension and surface area of the soap film, respectively. When stretching the film, the work done on the system is equal to σdA. The surface tension of the film is found to be a function of temperature only. Around room temperature, it can be expressed as σ(T)=σ0−λT, where σ0 and λ are positive constants. 1)...
3. Electromagnetic Inductance. Consider a single loop under magnetic field. (a) If the area A =...
3. Electromagnetic Inductance. Consider a single loop under magnetic field. (a) If the area A = 0.012[m) is constant, but the magnetic field is increasing at the rate of 0.020 T/s), determine the induced emf. (Use Faraday's law; the induced emf in a loop equals the absolute value of the time rate of change of the magnetic flux through the loop.) (b) If the total resistance of the circuit is 5.0(82), find the induced current. (c) Suppose we change the...
4. When an external magnetic field B is applied, a "spin-1" ion has 3 magnetic states...
4. When an external magnetic field B is applied, a "spin-1" ion has 3 magnetic states with energies given Em=aBm, m=-1,0,1, where a is a constant of order a few times the Bohr magneton up = en/(2m). (Note: the notation here is quite different from that of Kittel & Kroemer who use "m" for the elementary magnetic moment which we have denoted a. In our terminology, m=ms is an integer quantum number: m=-1 labels the "spin down" state, m=0 labels...
Solve equation (15-19) for the temperature distribution in a plane wall if the internal heat generation...
Solve equation (15-19) for the temperature distribution in a plane wall if the internal heat generation per unit volume varies according to y = 4 . The boundary conditions that apply are T=To atx=0 and T=T, at x=L Equation 15-19 15.2 Special Forms of the Differential Energy Equation The applicable forms of the energy equation for some commonly encountered stations follow. In every case the dissipation term is considered negligibly small I. For an incompressible fluid without energy sources and...
please show work when possible so that I may better understand. Thank you. x=L The rail gun consists of two thick conducting rails connected to a power supply and there is a magnetic field ass...
please show work when possible so that I may better
understand. Thank you.
x=L The rail gun consists of two thick conducting rails connected to a power supply and there is a magnetic field assumed to be uniform and constant in the direction shown. A short conducting bar that is to be (or carry) the projectile is placed across the bars at x -0. The current flows through the bars as shown. The magnetic force on the bar causes it...
06) Suppose a paramagnetic system that is under the action of an auxiliary (magnetic) field H. Thus, the work involved, it has to be that the work involved in a reversible process is described as đW = 10Hdm. where m is the total magnetic dipole moment of the system and u0 is the magnetic permeability of the vacuum. a) Determine the expression of the differential du of the internal energy U and indicate the two independent natural variables associated with...
Paramagnetic materials present a magnetic behavior described by
Curie's equation:
where M is the magnetization of the material, H is the external
magnetic field in Tesla, C is a constant and T is the
temperature.
(a) Indicate whether M and H are intensive or extensive
properties. Explain.
(b) Write the form of the configuration work, dw, for this
system.
(c) Find an expression for the work that has to be done on the
system to change its magnetization from 0...
02) Consider a hydrostatic system represented by the thermodynamic variables volume V, pressure P and temperature T. a) Consider entropy S = S(T, V) and derive the equation TdS. Tas = Cvat +T (1) dV. V Show that this equation can be written as follows BT TdS = CydT + PDV where Cv is the thermal capacity at constant volume, B is the isobaric expansiveness and K is isothermal compressibility: b) Consider a gas described by the equation of state...
4. (25 pts) The Gibb's free energy of a system of N particles is given by, G(T,p)=-Nk T In“- (a) dG = ? (write in differential form similar to dU = TDS - pdV) (b) Find expressions for S and V written as partial derivatives with respect to G. (c) Compute the constant pressure heat capacity Cp of the system: C=T(dS/dT), Hint: Use your expression for S derived in (b) above, 3333333 (d) Extract the equation of state for this...
3. Electromagnetic Inductance. Consider a single loop under magnetic field. (a) If the area A = 0.012[m) is constant, but the magnetic field is increasing at the rate of 0.020 T/s), determine the induced emf. (Use Faraday's law; the induced emf in a loop equals the absolute value of the time rate of change of the magnetic flux through the loop.) (b) If the total resistance of the circuit is 5.0(82), find the induced current. (c) Suppose we change the...
4. When an external magnetic field B is applied, a "spin-1" ion has 3 magnetic states with energies given Em=aBm, m=-1,0,1, where a is a constant of order a few times the Bohr magneton up = en/(2m). (Note: the notation here is quite different from that of Kittel & Kroemer who use "m" for the elementary magnetic moment which we have denoted a. In our terminology, m=ms is an integer quantum number: m=-1 labels the "spin down" state, m=0 labels...
Solve equation (15-19) for the temperature distribution in a plane wall if the internal heat generation per unit volume varies according to y = 4 . The boundary conditions that apply are T=To atx=0 and T=T, at x=L Equation 15-19 15.2 Special Forms of the Differential Energy Equation The applicable forms of the energy equation for some commonly encountered stations follow. In every case the dissipation term is considered negligibly small I. For an incompressible fluid without energy sources and...
please show work when possible so that I may better
understand. Thank you.
x=L The rail gun consists of two thick conducting rails connected to a power supply and there is a magnetic field assumed to be uniform and constant in the direction shown. A short conducting bar that is to be (or carry) the projectile is placed across the bars at x -0. The current flows through the bars as shown. The magnetic force on the bar causes it...
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