FXH; all publications

PUBLICATIONS

1. The Effect of Air Ions on Liquid Evaporation Rates. F. X. Hart and C. H. Bachman. Int. J. Biomet. 12, 251-61 (1968).

2. Air Ion Apparatus. C. H. Bachman, M. E. Crandell and F. X. Hart. Rev. Sci. Instrum. 39, 1168-70 (1968).

3. Science and Society in the Classroom. F. X. Hart. Amer. J. Phys. 38, 664-5 (1970).

4. The Coefficient of Friction as a Second Rank Tensor. F. X. Hart. Amer. J. Phys. 40, 475-6 (1972).

5. Measuring q/m for Water Drops - an Introduction to the Effects of Electrical Forces. F. X. Hart. Amer. J. Phys. 42, 141-7 (1974).

6. Electrostatic Field Induced Changes in Mouse Serum Proteins. A. A. Marino, T. Berger, R. O. Becker and F. X. Hart, Experientia 30, 1274-5 (1974).

7. Evaluation of Electrochemical Information Transfer System. I. Effect of Electric Fields on Living Organisms. A. A. Marino, T. J. Berger, B. P. Austin, R. O. Becker and F. X. Hart. J. Electrochem. Soc. 123, 1199-1200 (1976).

8. Student Investigation of Models for the Drag Force. F. X. Hart and C. A. Little. Amer. J. Phys. 44, 872-8 (1976)

9. Biophysics of Animal Response to an Electrostatic Field. F. X. Hart and A. A. Marino. J. Biol. Phys. 4, 124-43 (1976).

10. In Vivo Bioelectrochemical Changes Associated with Exposure to ELF Electric Fields. A. A. Marino, T. J. Berger, B. P. Austin, R. O. Becker and F. X. Hart. Physiol. Chem. and Physics, 9, 443-7 (1977).

11. Determination of Planet's Diameter by Occultation Time - an Introductory Astronomy Exercise. F. X. Hart and J. S. Massey. Amer. J. Phys. 45, 914-7 (1977).

12. Energy Flux Along High Voltage Transmission Lines. F. X. Hart and A. A. Marino. IEEE Trans. Biomed. Eng. BME-24, 493-5 (1977).

13. Magnetic Monopole Mobility Spectrometer. F. X. Hart and J. S. Massey. Amer. J. Phys. 46, 587-8 (1978).

14. Evaporation and Plant Damage in Electric Fields. F. X. Hart and R. S. Schottenfeld. Int. J. Biomet. 23, 63-8 (1979).

15. Space Osteoporosis: An Electrochemical Hypothesis. A. A. Marino, R. O. Becker, F. X. Hart and F. Anders. Aviation, Space and Environ. Med. 50, 409-10 (1979).

16. Ion Wind Enhancement of Evaporation into a Laminar Air Stream. F. X. Hart and J. S. Massey. Int. J. Heat & Mass Transfer. 23, 363-71 (1980).

17. Sensitivity to Change in Electrical Environment: A New Bioelectric Effect. A. A. Marino, J. M. Cullen, M. Reichmanis, R. O. Becker and F. X. Hart. Am. J. Physiol. 239, R424-7 (1980).

18. Plant Damage Produced by the Passage of Low Level Direct Current: I The Nature of the Damage. F. X. Hart, M. J. Mudano and A. A. Atchley. Int. J. Biomet. 25, 143-9 (1981).

19. Plant Damage Produced by the Passage of Low Level Direct Current: II Further Observations and Possible Mechanisms. F. X. Hart, M. J. Mudano and A. A. Atchley. Int. J. Biomet. 25, 151-60 (1981).

20. Two Electrohydrodynamic Demonstrations. F. X. Hart and J. S. Massey. Amer. J. Phys. 49, 695-6 (1981).

21. ELF Dosage in Ellipsoidal Models of Man Due to High Voltage Transmission Lines. F. X. Hart and A. A. Marino. J. Bioelec. 1, 313-28 (1982).

22. Some Precautions in the Use of Time Domain Dielectric Spectroscopy with Biological and Other Lossy Dielectrics. F. X. Hart. Med. & Biol. Eng. & Comput. 20, 401-7 (1982).

23. The Use of Time Domain Dielectric Spectroscopy to Characterize the Progress of Wound Repair. F. X. Hart. J. Bioelec. 1, 313-28 (1982).

24. Changes in the Dielectric Properties of a Plant Stem Produced by the Application of Voltage Steps. F. X. Hart. Int. J. Biomet. 27, 29-40 (1983).

25. Time Domain Dielectric Spectroscopy of Plant Stems. F. X. Hart. Conference on Electrical Insulation and Dielectric Phenomena, Buck Hills, PA; 16-20 Oct. 1983; New York, IEEE. Pages 391-6.

26. Further Precautions in the Use of Time Domain Dielectric Spectroscopy with Biological and Other Lossy Dielectrics. F. X. Hart. Med. & Biol. Eng. & Comput. 22, 379-81 (1984).

27. Weak Electric Fields Affect Plant Development. A. A. Marino, F. X. Hart and M. Reichmanis. IEEE Trans. Biomed. Eng. BME-30, 833-4 (1984).

28. Using TDDS to Study Mechanisms for Bioelectric Phenomena. F. X. Hart. Frontiers of Engineering and Computing in Health Care - 1984. Los Angeles, CA; 15-17 Sept. 1984; New York, IEEE. Pages 191-5.

29. Public-Health Aspects of the Energy Flux of High-Voltage Powerlines. F. X. Hart and A. A. Marino. Innovation et Technologie en Biologie et Medecine. 5, 636-40 (1984).

30. The Extremely Low Frequency Electrical Properties of Plant Stems. F. X. Hart. Bioelectromagnetics. 6, 243-56 (1985).

31. Penetration of Electric Fields into a Concentric-Sphere Model of Biological Tissue. F. X. Hart and A. A. Marino. Med. & Bio. Eng. & Comput. 24, 105-8 (1986).

32. Transient Currents in Schefflera Stems. F. X. Hart and D. E. Brumgard. IEEE Trans. Elec. Insul. EI-21, 19-22 (1986).

33. Software for Introductory Physics. F. X. Hart. Amer. J. Phys. 55, 200-201 (1987).

34. Pulse Shape Distortion by Tissue. F. X. Hart. J. Bioelec. 6, 93-107 (1987).

35. Polarization-Depolarization Phenomena in Apples. F. X. Hart and W. P. Coleman. Conference on Electrical Insulation and Dielectric Phenomena, National Bureau of Standards, Gaithersburg, MD; 18-22 Oct. 1987; New York, IEEE, Pages 361-367.

36. "Mathematical Modeling of Electromagnetic Interactions with Biological Systems" F. X. Hart in Modern Bioelectricity; A. A. Marino,ed., Marcel Dekker, New York, 1988; Pages 281-344.

37. Time-Domain Dielectric Spectroscopy of Apples. F. X. Hart and W. P. Coleman. IEEE Trans. Elec. Insul. EI-24, 627-634 (1989).

38. Validating Spread Sheet Solutions to Laplace's Equation. F. X. Hart. Amer. J. Phys. 57, 1027-1034 (1989).

39. Using a Spread Sheet Program to Model the Interaction of Low Frequency Electric Fields with Inhomogeneous, Irregularly Shaped Objects. F. X. Hart. J. Bioelec. 8, 201-26 (1989).

40. A Quantum Mechanical Model for Bioelectromagnetic Resonance Phenomena. F. X. Hart. J. Bioelec. 9, 1-7 (1990).

41. Use of a Spread Sheet to Calculate the Current-Density Distribution Produced in Human and Rat Models by Low-Frequency Electric Fields. F. X. Hart. Bioelectromagnetics 11, 213-228 (1990).

42. Eddy Current Distributions: Their Calculation with a Spreadsheet and Their Measurement with a Dual-Dipole Antenna Probe. F. X. Hart and K. W. Wood. Amer. J. Phys. 59, 461-467 (1991).

43. Changes in the Electric Field at an Injury Site During Healing Under Electrical Stimulation. F. X. Hart. J. Bioelec. 10, 33-51 (1991).

44. Electric Fields Induced in Rat and Human Models by 60-Hz Magnetic Fields: Comparison of Calculated and Measured Values. F. X. Hart. Bioelectromagnetics 13, 313-316 (1992).

45. Numerical and Analytical Methods to Determine the Current Density Distributions Produced in Human and Rat Models by Electric and Magnetic Fields. F. X. Hart. Bioelectromagnetics 13 Suppl 1, 27-42 (1992).

46. The Dielectric Properties of Apples in the Range 0.1 to 100 KHZ. F. X. Hart and W. H. Cole. J. Matl. Sci. 28, 621-631 (1993).

47. The Use of a Spreadsheet Program to Calculate the Electric Field/Current Distributions Induced in Irregularly-Shaped Inhomogeneous Biological Structures by Low-Frequency Magnetic Fields. F. X. Hart, K. Evely and C. D. Finch. Bioelectromagnetics 14, 161-172 (1993).

48. The Current Density Distribution Induced in a Two-Dimensional, Inhomogeneous Human Model by a Time-Varying Magnetic Field. F. X. Hart. In "Electricity and Magnetism in Biology and Medicine", ed. M. Blank, San Francisco Press, San Francisco, pp 572-574 (1993).

49. In-Vivo Measurement of the Low-Frequency Dielectric Spectra of Frog Skeletal Muscle. F. X. Hart and W. R. Dunfee. Phys. Med. Biol. 38, 1099-1112 (1993).

50. The Dielectric Properties of Meat. B. Bodakian and F. X. Hart. IEEE Trans. Dielec.& Elec. Insul. 1, 181-187 (1994).

51. Spreadsheet Method for Calculating the Induced Currents in Bone-Fracture Healing by a Low-Frequency Magnetic Field. F. X. Hart. Bioelectromagnetics 15, 465-482 (1994).

52. The Dielectric Spectra of Heated Potatoes. F. X. Hart and B. Bodakian. J. Matl. Sci. Lett. 14, 1214-1217 (1995).

53. 5 Volt Plateau in LiMn2O4 Thin Films. J. B. Bates, D. Lubben, N. J. Dudney, and F. X. Hart. J. Electrochem. Soc. 142, L149-L151 (1995).

54. Solving Multi-Loop Circuit Problems with a Spreadsheet.

F. X. Hart. The Physics Teacher. 33, 542 (1995).

55. Capacity Fade in Thin-Film Lithium-a-V2O5 Cells. B. S. Kwak, J. B. Bates, and F. X. Hart. In "Thin Film Solid Ionic Devices and Materials", ed. J. Bates, The Electrochemical Society, Pennington NJ, pp 137-147 (1995).

56. Thin-Film Rechargeable Lithium Batteries with Amorphous LixMn2O4 Cathodes. N. J. Dudney, J. B. Bates, D. Lubben, and F. X. Hart. In "Thin Film Solid Ionic Devices and Materials", ed. J. Bates, The Electrochemical Society, Pennington NJ, pp 201-214 (1995).

57. 5-Volt and 4.6 V Plateaus in LiMn2O4 Thin Films. J. B. Bates, D. Lubben, N. J. Dudney, R. A. Zuhr, and F. X. Hart. In "Thin Film Solid Ionic Devices and Materials", ed. J. Bates, The Electrochemical Society, Pennington NJ, pp 215-226 (1995).

58. Cell Culture Dosimetry for Low Frequency Magnetic Fields. F. X. Hart. Bioelectromagnetics 17, 48-57 (1996).

59. The Low-Frequency Dielectric Properties of Octopus Arm Muscle Measured In-Vivo. F. X. Hart, R. B. Toll, N. J. Berner, and N. H. Bennett. Phys. Med. Biol. 41, 2043-2052 (1996).

60. Characterization of Thin-Film Rechargeable Lithium Batteries with Lithium Cobalt Oxide Cathodes. B. Wang, J. B. Bates, F. X. Hart, B. C. Sales, R. A. Zuhr, and J. D. Robertson. J. Electrochem. Soc. 143, 3204-3213 (1996).

61. Spreadsheet Solutions for Ampere's Law Problems with Irregularly-Shaped Conductors. F. X. Hart. Amer. J. Phys. 65, 565-7 (1997).

62. A Stable Thin-Film Lithium Electrolyte: Lithium Phosphorous Oxynitride. X. Yu, J. B. Bates, G. E. Jellison, and F. X. Hart. J. Electrochem. Soc. 144, 524-532 (1997).

63. A Microcomputer-Based Phase-Change Experiment. F. X. Hart. The Physics Teacher 36, 98-9 (1998).

64. Lattice Model Calculation of the Strain Energy Density and Other Properties of Crystalline LiCoO2. F. X. Hart and J. B. Bates. J. Appl. Phys. 83, 7560-6 (1998).

65. Measurement of the Activation Enthalpies for Ionic Conduction in Apples. F. X. Hart, V. Schmidt, L. Ray and E. Shrum. J. Mat. Sci. 33, 3919-3925 (1998).

66. Modeling the Anisotropic Electrical Properties of Skeletal Muscle. F. X. Hart, N. J. Berner and R. L. McMillen. Phys. Med. Biol. 44, pp 413-421(1999).

67. Preferred Orientation of Polycrystalline LiCoO2 Films. J. B. Bates, N. J. Dudney, B. J. Neudecker, F. X. Hart, H. P. Jun and S. A. Hackney. J. Electrochem. Soc. 147, 59-70 (2000)

68. Computer-Based Experiment to Measure RC. F. X. Hart, The Physics Teacher, 38, 176-7 (2000)

69. A Comparison of the Impedance Spectra of Frog Gastrocnemius, Octopus Arm and Crayfish Tail Muscles, Measured In-Vivo. F. X. Hart, U. Ismail and V. Schmidt. Proceedings XI International Conference on Electrical Bio-Impedance, Oslo, Norway, 17-21 June 2001. ICEBI; 321-4.

70. The Impedance Spectroscopy of Skeletal Muscle. F. X. Hart. Proceedings of the tenth Electrotechnical and Computer Science Conference ERK 2001, Portoroz, Slovenia, 24-26 September 2001. Slovenia Section IEEE; Ljubljana. Vol A, 13-16.

71. Time Domain Dielectric Spectroscopy of Crayfish Tail Muscle, Measured In-Vivo. F. X. Hart, U. Ismail and V. Schmidt. Journal of Non-Crystalline Solids, 305, 311-316 (2002).

72. An Analytical Model for the Calculation of the Change in Transmembrane Potential Produced by an Ultrawideband Electromagnetic Pulse. F. X. Hart and C. E. Easterly. Bioelectromagnetics, 25, 251-9 (2004).

73. "Solvering" the Physical Pendulum. F. X. Hart. The Physics Teacher, 42, 150-3 (2004).

74. Effect of Cell Electroporation on the Conductivity of a Cell Suspension. M. Pavlin, M. Kanduser, M. Rebersek, G. Pucihar, F. X. Hart, R. Magjarevic and D. Miklavcic. Biophysical Journal, 88, 4378-4390 (2005).

75. Thermal Hysteresis of Bioelectrical Impedance in Frog Gastrocnemius Muscle, Measured In-Vivo . F. X. Hart, E. E. Davila-Moriel, N. J. Berner and R. L. McMillen. Journal of Non-Crystalline Solids, 351, 2929-2934 (2005).

76. Electric Properties of Tissues. D. Miklavcic, N. Pavselj and F. X. Hart. in "Wiley Encyclopedia of Biomedical Engineering", M. Akay, ed., Wiley, New York, Vol. 6, 3578-3589 (2006).

77. Integrins May Serve as Mechanical Transducers for Low-Frequency Electric Fields. F. X. Hart. Bioelectromagnetics, 27, 505-8 (2006).

78. Some Factors That May Determine the Frequency Response of Cells and Tissue to Applied Electrical and Mechanical Forces.F. X. Hart. Molecular and Cellular Biomechanics, 3, 235 (2006).

79. Impedance Spectroscopy of Newt Tails. F. X. Hart, J. H. Johnson and N. J. Berner; IFMBE Proceedings, 16 190-3 (2007).

80. Glycoproteins Bound to Ion Channels Mediate Detection of Electric Fields: A Proposed Mechanism and Supporting Evidence. O. V. Kolomytkin, S. Dunn, F. X. Hart, C. Frillot II, D. Kolomytkin, and A. A. Marino. Bioelectromagnetics, 28, 379-85, (2007).