Resources
Journal papers
Barnes, G. (1989), "The two cycles of the rotary Curie-point heat engine," AJP 57, 223-229.
Fisher, D. G. and W. T. Franz (1995), "Undergraduate laboratory demonstration of aspects of phase transitions using Curie temperature determination in amorphous ferromagnetic materials," Am. J. Phys. 63 (3), 248-51.
Fox, J. N., N. Gaggini, and J. K. Eddy (1986), "A study of the phase transition of a ferromagnetic material," AJP 54, 723-6.
Kamal, R., S. Sikri, and B. R. Sood (1983), "An experiment for studying the electrical conductivity and its critical behavior in ferromagnets," AJP 51, 631-633.
Lonc, W. (1992), "A simple demonstration of the Barkhausen effect," AJP 60, 860.
Manasse, F. K. and E. W. Kyllonen (1972), "A simple, low-cost method of measuring ferromagnetic resonance," AJP 40, 1171-1172.
Meng, Y. and Z. Liang (1987), "Improvements in the demonstration of the hysteresis loops of ferromagnetic materials," AJP 55, 933-7.
Pescetti, D. (1969), "Use of 'Monel metal' in laboratory experiments and lecture demonstrations on the Ferromagnetic Curie point," AJP 37, 334.
Prasad, B. S., S. V. Shastry, and K. M. Hebbar (1972), "An experiment to determine the relative permeability of ferrites," AJP 40, 907-910.
Rossing, T. D. (1981), "Anhysteretic magnetization and tape recorder bias," AJP 49, 655-657.
Rothenstein, B. F., C. Tamasdan, and R. Baea (1987), "Learning more from electrical resistivity measurements in ferromagnetic metals," AJP 55, 280-1.
Rubin, L. G. (1972), "Comment on "Magnetic hysteresis measurements with an integrating magnetometer" [J. W. Snider, Am. J. Phys. 39, 964 (1971)]," AJP 40, 639-640.
Scneider, C. S. and J. P. Ertel (1978), "Experiments on magnetic materials," AJP 46, 820-824.
Smith, E. V. (1965), "An ac bridge method for the measurement of Curie points," AJP 33, 167.
Snider, J. W. (1971), "Magnetic hysteresis measurements with an integrating magnetometer," AJP 39, 964-965.
Sood, B. R., R. Kamal, and S. Sikri (1980), "Simple experiment for studying the properties of a ferromagnetic material," AJP 48, 481-482.
Bucher, J. P. (1991), "Magnetic marbles as a model for ferromagnetic particle aggregation: fractal dimensions," EJP 12, 142-145.
du Plessis, P. d. V., G. F. Brits, C. Dednam, L. de Konig, K. O'Kennedy, and H. J. van Rijn (1982), "A laboratory project on the electrical resistivity of ferromagnetic metals," EJP 3, 80-82.
Hill, R. W. (1982), "Advanced student experiments in paramagnetism and antiferromagnetism," EJP 3, 75-79.
Kraftmakher, Y. (1997), "Curie point of ferromagnets," Eur. J. Phys. 18 (6), 448-52.
Lewowski, T. and K. Woiniak (1997), "Measurement of Curie temperature for gadolinium: a laboratory experiment for students," Eur. J. Phys. 18 (6), 453-5.
Sullivan, R. A. L., A. Dunk, P. J. Ford, R. N. Hampton, and J. C. Hopkins (1987), "Undergraduate laboraotry experiment top determine the Curie temperature of nickel using a resistance technique," EJP 8, 300-305.
Bates, P. A. and A. M. Kent (1980), "An apparatus for the determination of Curie temperature," Phys. Educ. 15, 386-389.
Riveiro, J. M. (1983), "Magnetic domains," Phys. Educ. 18, 46-47.