Table 8.1 Magnetic quantities and their units.

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Presentation transcript:

Table 8.1 Magnetic quantities and their units. From Principles of Electronic Materials and Devices, Second Edition, S.O. Kasap (© McGraw-Hill, 2002) http://Materials.Usask.Ca

Table 8.2 Classification of magnetic materials. From Principles of Electronic Materials and Devices, Second Edition, S.O. Kasap (© McGraw-Hill, 2002) http://Materials.Usask.Ca

Table 8.3 Properties of the ferromagnets Fe, Co, Ni and Gd. From Principles of Electronic Materials and Devices, Second Edition, S.O. Kasap (© McGraw-Hill, 2002) http://Materials.Usask.Ca

Table 8.4 Selected soft materials and some typical values and applications (Wh is the hysteresis loss, energy dissipated per unit volume per cycle in hysteresis losses, J m-3 cycle-1, typically at Bm = 1 T). From Principles of Electronic Materials and Devices, Second Edition, S.O. Kasap (© McGraw-Hill, 2002) http://Materials.Usask.Ca

Table 8.5 Hard magnetic materials and typical values. From Principles of Electronic Materials and Devices, Second Edition, S.O. Kasap (© McGraw-Hill, 2002) http://Materials.Usask.Ca

Table 8. 6 Selected examples of Type I and Type II superconductors Table 8.6 Selected examples of Type I and Type II superconductors. Critical fields are close to absolute zero (obtained by extrapolation). Type I for pure and clean elements. From Principles of Electronic Materials and Devices, Second Edition, S.O. Kasap (© McGraw-Hill, 2002) http://Materials.Usask.Ca

Table 8.7 Selected examples of flexible magnetic storage media based on coatings of particulate matter. Typical values. From Principles of Electronic Materials and Devices, Second Edition, S.O. Kasap (© McGraw-Hill, 2002) http://Materials.Usask.Ca

Table 8.8 Selected examples of thin films in magnetic storage media; typical values. From Principles of Electronic Materials and Devices, Second Edition, S.O. Kasap (© McGraw-Hill, 2002) http://Materials.Usask.Ca