This is exercise 3-19 from Sears and Salinger Thermodynamics, Kinetic Theory, and Statistical Thermodynamics.
Curie's law : M = (C*H)/T
M = magnetic moement
H = intensity of magnetic field
C = constant
T = temperature
dW = -H dM ( equation 3-10 from book)
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This is exercise 3-12 from Sears and Salinger Thermodynamics, Kinetic Theory, and Statistical Thermodynamics.E = intensity of electric field in a dielectric slabP = dipole moment of slab
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...
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...
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...
5. In a lossless nonmagnetic medium with er = 4, E(y,t) = 20 cos(108nt +By+)a, V/m Find the following: (a) Direction of propagation and the wave length , Speed of propagation of the wave and propagation constant, B, attenuation constant, (b) using the Maxwell's equation, find the magnetic field intensity H(y,t) (c) phase angle between the E and H fields.
That is a z' (z prime), not z^12. Please answer all parts and show full work, thank you! x(m) (25 pts) Problem 3 The Savart Law This problem is similar to that of Problem 1 except here we have an infinite wire with current I(z) at the point (x-2,y 3,-0) using the Bigt -Savart Law. A and we will be finding the magnetic field H due to this current 13) +13 10 (2,3,0 dl r(0,0,z) -5 -10 (a) What is...
That is a z' (z prime), not z^12. Please answer all parts and show full work, thank you! x(m) (25 pts) Problem 3 The Savart Law This problem is similar to that of Problem 1 except here we have an infinite wire with current I(z) at the point (x-2,y 3,-0) using the Bigt -Savart Law. A and we will be finding the magnetic field H due to this current 13) +13 10 (2,3,0 dl r(0,0,z) -5 -10 (a) What is...
This equation from problem 2 is needed to solve problem 3. please skip C problem 2 temperature field. Problem 3 (Fourier's Law of Heat Flow) From a temperature field, we can use Fourier's Law to compute the heat transfer rate (which is a vector field): Where k is a constant known as the thermal conductivity. For the purposes of this exercise, we can assume that k is 1. We wish to apply Fourier's Law to the temperature field given in...
2.(40 pts.) A mixing chamber is used to heat liquid water to a saturated vapor by adding superheated steam. The liquid water enters through Line 1 at 1 MPa, a temperature of 100 C and a mass flow rate of 2 kg/s. The superheated steam enters through Line 2 at 1 MPa and 400°C. The combined stream exits through Line 3 as a saturated vapor at 1 MPa. The chamber also receives 3 MW of heat transferred from an external...
Consider a 1-m conducting rod attached at each end by conducting rails. The rails are connected at the top and the total loop has a resistance of 3-Ohms. (see figure below). The rod falls to the ground at a constant velocity. v. The apparatus is inside a constant magnetic field, B = 2.0 T (directed out of the page). The mass of the rod is 0.5kg. B = 2:0 T (out of R=5 1 m D VE a) What is...