18. The residual charge of the Leyden jar 19. Residual charge of the Leyden jar dielectric properties of different glasses 20. Refractive indices of glass 21. Electrostatic capacity of glass and of liquids 23. On the refractive index and specific inductive capacity of transparent insulating media 24. On the quadrant electrometer 25. Note on specific inductive capacity 26. Specific inductive capacity 27. On the capacity and residual charge of dielectrics as affected by temperature and time 28. On the magnetisation of iron 29. Magnetic properties of an impure nickel 30. Magnetic and other physical properties of iron at a high temperature 31. Magnetism and recalescence 32. Magnetic properties of nickel and iron 33. Note on the density of alloys of nickel and iron 34. Magnetic properties of pure iron Francis Lydall and Alfred W. S. Pocklington 35. Magnetic viscosity J. Hopkinson and B. Hopkinson 36. Magnetic viscosity J. Hopkinson, E. Wilson and F. Lydall 37. Propagation of magnetisation of iron as affected by the electric currents in the iron J. Hopkinson and E. Wilson 38. On the rupture of iron wire by a blow 39. Further experiments on the rupture of iron wire 40. The mathematical theory of Tartini's beats 41. On the stresses produced in an elastic disc by rapid rotation 42. On the effect of internal friction on resonance 43. On the optical properties of a titano-silicic glass Professor Stokes and J. Hopkinson 44. Certain cases of electromotive force sustained by the action of electrolytes on electrolytes 45. On the quasi-rigidity of a rapidly moving chain 46. On the torsional strain which remains in a glass fibre after release from twisting stress 47. On the stresses caused in an elastic solid by inequalities of temperature 48. On the thermo-elastic properties of solids 49. On high electrical resistances 50. Note on Mr E. H. Hall's experiments on the 'action of magnetism on a permanent electric current' 51. Notes on the seat of the electromotive forces in a voltaic cell 52. Alternate current electrolysis J. Hopkinson, E. Wilson and F. Lydall.
18. The residual charge of the Leyden jar 19. Residual charge of the Leyden jar dielectric properties of different glasses 20. Refractive indices of glass 21. Electrostatic capacity of glass and of liquids 23. On the refractive index and specific inductive capacity of transparent insulating media 24. On the quadrant electrometer 25. Note on specific inductive capacity 26. Specific inductive capacity 27. On the capacity and residual charge of dielectrics as affected by temperature and time 28. On the magnetisation of iron 29. Magnetic properties of an impure nickel 30. Magnetic and other physical properties of iron at a high temperature 31. Magnetism and recalescence 32. Magnetic properties of nickel and iron 33. Note on the density of alloys of nickel and iron 34. Magnetic properties of pure iron Francis Lydall and Alfred W. S. Pocklington 35. Magnetic viscosity J. Hopkinson and B. Hopkinson 36. Magnetic viscosity J. Hopkinson, E. Wilson and F. Lydall 37. Propagation of magnetisation of iron as affected by the electric currents in the iron J. Hopkinson and E. Wilson 38. On the rupture of iron wire by a blow 39. Further experiments on the rupture of iron wire 40. The mathematical theory of Tartini's beats 41. On the stresses produced in an elastic disc by rapid rotation 42. On the effect of internal friction on resonance 43. On the optical properties of a titano-silicic glass Professor Stokes and J. Hopkinson 44. Certain cases of electromotive force sustained by the action of electrolytes on electrolytes 45. On the quasi-rigidity of a rapidly moving chain 46. On the torsional strain which remains in a glass fibre after release from twisting stress 47. On the stresses caused in an elastic solid by inequalities of temperature 48. On the thermo-elastic properties of solids 49. On high electrical resistances 50. Note on Mr E. H. Hall's experiments on the 'action of magnetism on a permanent electric current' 51. Notes on the seat of the electromotive forces in a voltaic cell 52. Alternate current electrolysis J. Hopkinson, E. Wilson and F. Lydall.
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