REFERENCES

[1]  Timothy H. Boyer, “The Classical Vacuum”, Scientific American,  August (1985) 70-78.
[2]  M. Planck, Verhandlungen der Deutschen Physikalischen Gesellschaft 13 (1911) 138.
[3]  California Institute for Physics and Astrophysics (CIPA), An Introduction to Zero-Point Energy, p.3.  Available  (March 7, 2006) online at: http://www.calphysics.org/zpe.html
[4]  B.Setterfield, ‘Exploring the Vacuum’, Journal of Theoretics, (January 2003) available online (March 7, 2006) at http://www.journaloftheoretics.com/Links/Papers/Setterfield.pdf
[5]  C.S. Kochanek, Ap. J. 466 (1996) 638.
[6]   J. D. Barrow and J. Magueijo, Ap. J. 532 (2000) L87.
[7]  Ya. B. Zeldovich, Sov. Phys. Uspekhi 11:3 (1968) 381.
[8]   L. Abbott, Scientific American 258:5 (1988) 106.
[9]   B. Greene, “The Elegant Universe,” W. W. Norton & Company Inc., New York (1999)  225.
[10]  A. Einstein and O. Stern, Ann. Physik 40 (1913)  551.
[11]  W. Nernst, Verhandlungen der Deutschen Physikalischen Gesellschaft (1916)  83.
[12]  L. de Broglie, “New Perspectives in Physics, Basic Books Publishing Co. New York (1962).
[13]  E. Nelson, Phys. Rev. 150 (1966), 1079; also “Dynamical Theories of Brownian Motion,” Princeton University Press, (1967).
[14]  T.H. Boyer, Phys. Rev. D. 11 (1975)  790.
[15]  H.E. Puthoff, New Scientist, 28 July (1990)  36.
[16]  B. Haisch, A. Rueda and H.E. Puthoff, Speculations in Science and Technology, 20 (1997)  99.
[17]  A. S. Eddington, Space, Time and Gravitation, (Cambridge University Press 1920, reprint 1987)  109.
[18]  F. de Felice, ‘On the gravitational field acting as an optical medium’, Gen. Rel. & Grav. 2:4 (1971)  347-357.
[19]  B. Setterfield, ‘General Relativity & the Zero Point Energy,’ Journal of Theoretics, October, 2003 available (March 7, 2006) online at http://www.journaloftheoretics.com/Links/Papers/BS-GR.pdf.
[20]  B. Haisch and A. Rueda, Ap. J. October 20 (1997), pre-print.
[21]  B. Haisch, A. Rueda and H.E. Puthoff, The Sciences, (Nov/Dec 1994) 26-31.
[22]  H. E. Puthoff, Phys. Rev. A 40:9 (1989), 4857.
[23]  Science Editor, New Scientist, (2 December 1989) 14.
[24]  H. E. Puthoff, Physical Review D, 35 (1987) 3266.
[25]  B. Setterfield, D. Dzimano, ‘The Redshift and the Zero Point Energy’ Journal of Theoretics, (Dec. 2003).  Available online at http://www.journaloftheoretics.com/Links/Papers/Setter.pdf
[26]  C. H. Gibson, “Turbulence and mixing in the early universe,” Keynote Paper, International Conference Mechanical Engineering, Dhaka, Bangladesh, Dec. 26 to 28, 2001. Available online (March 7, 2006) at: http://arxiv.org/abs/astro-ph/0110012
[27]  M. Harwit, Astrophysical Concepts, 2nd ed., Springer-Verlag, New York, (1988)  513.
[28]  C. Bizon et al, in Dynamics: Models and Kinetic Methods for Nonequilibrium Many Body Systems, J. Karkheck, Ed. (Kluwer, Dordrecht, February 1999), available online at: arXiv:cond-at/9904135 v 1, 9 (April 1999).
[29]  B. Greene, op. cit., pp. 331-333.
[30]  Ibid, p.156.
[31]  F. M. Pipkin and R. C. Ritter, Science 219 (1983) 4587.
[32]  A. Cho, Science, 301 (2003) 116-117; also F. W. Stecker, “Constraints on Lorentz Invariance Violating Quantum Gravity and Large Extra Dimensions Models using High Energy Gamma Ray Observations”, Astropart. Phys. 20 (2003) 85
[33]  R. Lieu and L. W. Hillman, “Stringent limits on the existence of Planck time from stellar interferometry” Astrophysical Journal 568 (2002) L67-L70.
[34]  R. Lieu & L. W. Hillman, “The phase coherence of light from extragalactic sources – direct evidence against first order Planck scale fluctuations in time and space”, Astrophysical Journal 585 (2003) L77-L80
[35]  R. Ragazzoni, M. Turatto & W. Gaessler, “Lack of observational evidence for quantum structure of space-time at Planck scales”, Astrophysical Journal 587:2 (2003) L1-L4
[36]  Y. J. Ng & H. van Dam, “On Wigner’s clock and the detectability of spacetime foam with gravitational-wave interferometers”, Physics Letters B 477 (2000) 429
[37]  J. C. Baez & S. J. Olson, “Uncertainty in Measurements of Distance”, Classical and Quantum Gravity 19:14 (21 July 2002) L121-L125
[38]  B. Haisch, A. Rueda, H.E. Puthoff, Speculations in Science and Technology, 20, (1997) 99-114.
[39]  H. Arp, Seeing Red: Redshifts, Cosmology And Academic Science,  Apeiron, Montreal, Canada, (1998) 199.
[40]  J. Narliker and H. Arp, Ap J., 405 (1993) 51.
[41]  J. H. Sanders, The Fundamental Atomic ConstantsOxford University Press, Oxford,(1965) 13.
[42]  K. Scharnhorst, Phys Lett. B. 236 (1990) 354.
[43]  Science Editor, Science News, 137, (12th May, 1990) 303.
[44]  G. Barton, Phys Lett B, 237 (1990) 559.
[45]  J. I. Latorre, P. Pascual and R. Tarrach, Nuclear Physics B 437 (1995) 60-82.
[46]  R. Matthews, New Scientist, (25 February, 1995) 30.
[47]  Science Editor, New Scientist, (2 December, 1989) 14.
[48]  B.I. Bleaney and B. Bleaney, Electricity and Magnetism, Clarendon Press, Oxford, (1962)  242, 243.
[49] K. Wanser, Fullerton University, private communication about his article in press (July 5, 2004).
[50]  V. S. Troitskii, Astrophys. & Space Science 139 (1987) 389.
[51]  J. Moffat, Int. J. Mod. Phys. D 2 (1993) 351.
[52]  J. Moffat, Int. J. Mod. Phys. D 23 (1993) 411.
[53]  A. Albrecht and J. Magueijo,Phys. Rev. D 59:4 (1999) 3515 .
[54]  J. D. Barrow, Phys. Rev. D 59:4 (1999) 043515-1.
[55]  N. E. Dorsey, Trans. Am. Phil. Soc. 34:1 (1944) 1.
[56]  S. Newcomb, Nature, May 13 (1886) 29.
[57]  R. T. Birge, Rep. Prog. Phys. 8 (1941) 90.
[58]  M.E.J. Gheury de Bray, Nature, 120 (1927) 602.
[59]  M.E.J. Gheury de Bray, Nature, 127 (1931) 522.
[60]  M.E.J. Gheury de Bray, Nature, 127 (1931) 892.
[61]  T. Norman and B. Setterfield, ‘The Atomic Constants, Light, and Time,’ Research Report, Stanford Research Institute (SRI) International & Flinders University, South Australia, August (1987); available online at http://www.setterfield.org/report/report.html
[62]  A. Montgomery and L. Dolphin, Galilean Electrodynamics 4:5 (1993) 93.
[63]  J. N. Bahcall and E. E. Salpeter, Ap. J. 142 (1965) 1677.
[64]  W. A. Baumand R. Florentin-Nielsen, Ap. J. 209 (1976) 319.
[65]  J.E. Solheim, T.G. Barnes and H. J. Smith, Ap. J. 209 (1976) 330.
[66]  P. D. Noerdlinger, Phys. Rev. Lett. 30 (1973) 761.
[67]  R. Srianand et al. Phys. Rev. Lett. 92 (2004) 121302.
[68]  D. Monroe,Phys Rev. Lett. 92 (2004) 121302.
[69]  R. T. Birge, Nature, 134 (1934) 771.
[70]  M. Chown, ‘Mass Medium’, interviewing Haisch et al., New Scientist, 3rd February (2001) 22-25.
[71]  H. E. Puthoff, Phys. Rev. A, 39:5 (1989) 2333-2342. See also D. Bohm, The Special Theory of Relativity, Benjamin-Cummings, Reading, MA, (1965) Chapt. 19.
[72]  B. Haisch, A. Rueda and H. E. Puthoff, Phys. Rev. A, 49:2 (1994)  p.678.
[73]  A. P. French, Principles of Modern Physics,  John Wiley & Sons, New York, (1959)  114.
[74]  J. Kovalevsky,Metrologia 1:4 (1965) 169-180.
[75]  T.C. Van Flandern, Precision Measurements and Fundamental Constants II, B.N. Taylor and W. D. Phillips, (Eds.), National Bureau of Standards (U.S.) Special Publication 617, (1984) 625-627.
[76]  C.J. Masreliez, Aperion, 11:4, (October 2004). See also Masreliez & Kolesnik, Astronomical Journal (August 2004) and Y.B. Kolesnik “Analysis of the secular variations of the longitudes of the Sun, Mercury, and Venus from Optical observations” (2005) online at http://www.estfound.org/analysis.htm.
[77]  Z-G. Yao and C. Smith in ‘Mapping the Sky’, S. Debarbat, J.A. Eddy, H.K. Eichhorn, A.R. Upgren (eds.), Kluwer, Dordrecht, (1988) 501.
[78]  Z-G. Yao and C. Smith, Astrophysics and Space Science, 177 (1991) 181.
[79]  Z-G. Yao and C. Smith in ‘Developments in Astrometry and Their Impact on Astrophysics and Geodynamics’, I.I. Muller and B. Kolaczek (eds.), Kluwer, Dordrecht, (1993) 403.
[80]  G.A. Krasinsky et al., Cel. Mec.Dyn Astron, 55 (1993) 1.
[81]  E.M. Standish and J.G. Williams in ‘Inertial Coordinate System on the Sky’, J.H. Lieske and V.K. Abalakin (eds.), Kluwer, Dordrecht, (1990) 173.
[82]  P.K. Seidelman et al. in ‘Dynamical Astronomy’, V. Szebenhey and B. Balazs (eds.), Austin, Texas, (1985) 55.
[83]  P.K. Seidelman et al. in ‘Relativity in Celestial Mechanics and Astrometry’,  J. Kovalevsky and V.A. Brumberg (eds.), Kluwer, Dordrecht, (1986) 99.
[84]  P.K. Seidelman in ‘Chaos, Resonance and Collective Dynamical Phenomena in the Solar System’,  S. Ferraz-Mello et al. (eds.), Kluwer, Dordrecht, (1992) 49.
[85]  Y.B. Kolesnik, Astronomy and Astrophtsics, 294 (1995)  876.
[86]  Y.B. Kolesnik, in ‘Dynamics, Ephemerides and Astrometry of the Solar System’,  S. Ferraz-Mello et al. (eds.), Reidel, Dordrecht, (1996) 477.
[87]  P.S.R. Poppe et al., Astronomical Journal, 116,  (1999) 2574.
[88]  T.C. Van Flandern, personal communication, July, 2004.
[89]  L. de la Pena, ‘Stochastic Electrodynamics: Its Development, Present Situation, And Perspectives,’ in “Stochastic Processes Applied to Physics and other Related Fields,” B. Gomez et al. eds., (World Scientific Publishing Co. Pty. Ltd, 1983), being the Proceedings of the Escuela Lationamericana de Fisica held in Cali, Colombia, (21 June-9July, 1982) 428-581.
[90]  T. H. Boyer, Phys. Rev. D 11 (1975) 790
[91]  P. Claverie and S. Diner, in Localization and delocalization in quantum chemistry, Vol.II,  O. Chalvet et al., eds, (Reidel, Dorchrecht, 1976) 395.
[92]  H.E. Puthoff, Phys. Rev. D, 35:10 (1987) 3266.
[93]  H. E. Puthoff, private communication, (3 April, 1998).
[94]  Science Editor, New Scientist, (July 1987).
[95]  H. E. Puthoff, New Scientist, 28th July (1990) 36-39.
[96]  W. G. Tifft, Ap. J. 206 (1976) 38.
[97]  W. G. Tifft, Ap. J. 211 (1977) 31.
[98]  W. G. Tifft, Ap. J. 221 (1978) 756.
[99]  W. G. Tifft, Ap. J. 233 (1979) 799.
[100]  W. G. Tifft, Ap. J. 382 (1991) 396.
[101] T. Beardsley, Scientific American 267:6 (1992) 19.
[102] J. Gribbin, New Scientist 9 July (1994) 17.
[103] R. Matthews, Science, 271 (1996) 759.
[104] H. Arp & Sulentic, Astrophysical Journal 291 (1985) 88.
[105] H. Arp, Quasars, Redshifts and Controversies, Interstellar Media, Berkeley, California, (1987)  107-114.
[106] P. F. Schewe & B. Stein, American Institute Physics, Physics News Update, No.61, January 3 (1992).
[107] P. F. Schewe & B. Stein, American Institute Physics, Physics News Update, No. 104, Nov. 25 (1992).
[108] News Editor, Scientific American, (December 1992).
[109] J. Gribbin, New Scientist,  (July 9, 1994) 17
[110] W. R. Corliss, Science Frontiers, No. 105: May-June, 1996.
[111] H. Arp, (1998), op. cit., p.199.
[112] J. Gribbin, New Scientist, 20 June (1985) 20.
[113] T. Beardsley, Scientific American 267:6 (1992) 19.
[114] B. M. Lewis, Observatory 107 (1987) 201.
[115] H. Arp, (1987), op. cit., p14
[116] D. Duari et al., Ap. J.384 (1992) 35.
[117] H. Arp, (1987) op. cit., p.119.
[118] R.M. Eisberg, “Fundamentals of Modern Physics”, (John Wiley and Sons Inc., (1961) 137.
[119] A.P. French, op.cit., pp. 108, 109.
[120] Ibid, p.67.
[121] M. MacGregor, “The Enigmatic Electron,” Dordrecht: Kluwer, (1992) 5-6.
[122] Ibid, p. 28.
[123] A.P. French, op. cit., pp. 63-67.
[124] K.W. Ford, “Classical and Modern Physics,” Vol. 3, Wylie, (1974) 1152, A10.
[125] G.R. Delpierre and B.T. Sewell, “Periodicity of Atomic Properties”, GRD Training Corporation Physchem Co.(2002), available until Dec. 2005 at: http://www.physchem.co.za/Atomic/Periodicity.htm.
[126] W.J. Moore, “Physical Chemistry,” third edition,  Longmans, (1961) 396.
[127] Atomic Radius Definition: About.com Chemistry also UC Davis ChemWiki
[128] B. Lovell, T. O. Paine and P. Moore, “The Readers Digest Atlas of the Universe,” Mitchell Beazley Ltd., (1974) 214.
[129] J. Audouze and G. Israel, Cambridge Atlas of Astronomy, Cambridge/Newnes, (1985) 356, 382.
[130] F.G. Dunnington, Rev. Mod. Phys. 11:2 (1939) 65.
[131] R.T. Birge, Rev. Mod. Phys. 13 (1941), 233.
[132] J.W.M. DuMond & E.R. Cohen, Rev. Mod. Phys. 20 (1947) 82.
[133] J.A. Bearden & H.M. Watts, Phys. Rev. 81:1 (1950) 73.
[134] E.R. Cohen & J.W.M. DuMond, Rev. Mod. Phys. 25:3 (1952) 691.
[135] E.R. Cohen, J.W.M. DuMond, T.W. Layton and J.S. Rollett, Rev. Mod. Phys. 27:4 (1955) 363.
[136] E.R. Cohen & J.W.M. DuMond, “Proceedings of the Second International Conference on Nuclidic Masses, Vienna, Austria, July 1963”, W.H. Johnson Jr. (ed),  Springer-Verlag, Wien, 1964) 152.
[137] E.R. Cohen & J.W.M. DuMond, Rev. Mod. Phys. 37:4 (1965) 537.
[138] B.N. Taylor, W.H. Parker and D.N. Langenberg, Rev. Mod. Phys. 41:3 (1969) 375.
[139] E.R. Cohen & B.N. Taylor, J. Phys. Chem. Ref. Dat. 2:4 (1973) 663.
[140] E.R. Cohen & B.N. Taylor, Rev. Mod. Phys. 59, (1988) 1121.
[141] P.J. Mohr & B.N. Taylor, Rev. Mod. Phys. 72:2 (2000) 351.
[142] P.J. Mohr & B.N. Taylor, Rev. Mod. Phys. 77:1 (2005) 1.
[143] K.D. Froome and L. Essen, “The Velocity of Light and Radio Waves,” Academic Press, London, (1969) 45,48.
[144] See under “recombination coefficient” in American Meteorological Society Glossary of Meteorology, available online at: http://amsglossary.allenpress.com/glossary/browse?s=r&p=30 (2003).
[145] See, for example, Astronomy 871 – Physics of the ISM, page III-3, available at: www-astronomy.mps.ohio-state.edu/~pogge/Ast871/Notes/Ionized.pdf (2003)(as of March 7, 2006).
[146] R. M. Zwaska et al., “Beam Tests of Ionization Chambers for the NuMI Neutrino Beam,” IEEE Transactions on Nuclear Scoence, vol. 50, No.4 (August 2003) 1129
[147] M-M. MacLow, R. S. Klessen & A. Burket, Physical Review Letters 80:13,  (1998) 27,54.
[148] F.A. Jenkins & H.E. White, “Fundamentals of Optics” 3rd Edition, (McGraw-Hill, 1957). pp. 412-414.
[149] S. G. Starling & A. J. Woodall, “Physics,”  Longmans, (1958) 1129.
[150]A.P. French,op. cit., p.40.
[151] M. Harwit, op. cit., p. 322.
[152] J.P. Cox & R.T. Giuli, Principles of Stellar Structure, (Gordon & Breach, New York, (1968) 383.
[153] Ibid, p. 374.
[154] M. Harwit, op. cit., p. 315.
[155] Ibid, p. 82.
[156] T. L. Swihart, Physics of Stellar Interiors,  Pachart Publishing House, Tucson, Arizona, (1972) 76.
[157] Cox and Giuli, op. cit., p. 374
[158] M. Harwit, op. cit., p. 323.
[159] Ibid, pp. 323-324.
[160] Ibid, p. 314.
[161] M. Schwarzschild, Structure and Evolution of the Stars, Princeton University Press,Princeton, New Jersey, (1958) 88.
[162] M. Harwit, op. cit., pp. 336-337 and Fig. 8.7.
[163] T. L. Swihart, op. cit., p. 82.
[164] M. Harwit, op. cit., p. 321.
[165] M. Schwarzschild, op. cit., p. 42.
[166] F. Hoyle, Frontiers of Astronomy, William Heinemann Ltd, London, (1956) 184-188.
[167] D. Ostlie & B. Carroll, An Introduction to Modern Stellar Astrophysics, Weber State University (Addison-Wesley Publishing Co. Inc., Reading, MA, 1996).
[168]. P.S. Wesson, Cosmology and Geophysics: Monographs on Astronomical Subjects, 3, Adam Hilger Ltd., Bristol, (1978) 62-63.
[169] W. J. Moore, Physical Chemistry, 3rd edition, Longmans,(1961) 548.
[170] S. V. Filseth in Chemical Systems: Energetics, Dynamics, Structure, J. A. Campbell, (Ed.) W. H. Freeman and Co., San Francisco (1970) 555-556, 583.
[171] Ibid, pp. 555-556.
[172] Ibid, p. 588.
[173] V. Rubin, Science, 220:4604 (1983) 1339.
[174] M. Milgrom, Astrophysical Journal, 270 (1983) 365 ff.
[175] S. L. Martin & A. K. Connor, Basic Physics, Vol. 1, Whitcombe & Tombs Pty. Ltd., Melbourne, (1958) 175, 207.
[176] A.P. French, op.cit., p.298.
[177] S. Glasstone, Sourcebook on Atomic Energy, 1st Edition, Macmillan, London, (1950) 158.
[178] H. Von Buttlar, “Nuclear Physics” Academic Press, New York, (1968) 448-449.
[179] Ibid, pp. 485, 492.
[180] W.E. Burcham, “Nuclear Physics”, McGraw-Hill, New York, (1963) 606.
[181] Ibid, p.609.
[182] Ibid, p.604.
[183] P.S. Wesson, op. cit., pp.65-66.
[184] A.P. French, op.cit., p.31.
[185] A.P. Meshik, C.M. Hohenberg, and O.V. Pravdivtseva, Phys. Rev. Lett. 93, (2004), p.182302.
[186] F. Dyson and T. Damour, Nuclear Physics B, 480 (19970, 37.
[187] J.D. Barrow, “Impossibility: the limits of science and the science of limits,” pp.186-187 (Oxford University Press, 1998).
[188] M.R. Wehr and J.A. Richards, “Physics of the Atom,” p.311 (Addison-Wesley, 1960).
[189] Ibid, p.321.
[190] A.P. French, op. cit., p.82.
[191] F.A. Jenkins & H.E. White, op.cit. p.403
[192] W.L. Freedman et al., Astrophysical Journal, 427:2 (1994), pp. 628-655. 
[193] N. Bartel et al., Nature, 368 (No. 6472), pp. 610-613 (1994).
[194] J.M. Marcaide et al., Nature 373(No. 6509), pp. 44-45, (1995).
[195] J.M. Marcaide et al., Astrophysical Journal, 486 (1997), pp. L31-L34.
[196] B.I. Bleany and B. Bleany, op. cit., pp.236-239.
[197] H.A. Lorentz, “Lectures on Theoretical Physics”, Vol. III, pp.208-211, Macmillan &
Co., London (1931), contains summary and citation of 1904 paper.
[198] B. Haisch, A. Rueda & H.E. Puthoff, The Sciences, Nov/Dec 1994, pp.26-31.
[199] H.E. Puthoff, “Polarizable Vacuum (PV) Representation of General Relativity,” September 1999.

[200] R.H. Dicke, Rev. Mod. Phys. 29, (1957), pp. 363-376. 
[201] A. O’Rahilly, “Electromagnetic Theory”, pp.304-323, Dover Publications (1965).
[202] M. Edwards, Editor, “Pushing Gravity”, pp. 93-122, Apeiron Press, Montreal, (2002).
[203] Ibid.
[204] B. Setterfield, 2003, op. cit. (see reference 19) as well as references contained therein.
[205] T. Van Flandern, Physics Letters A 250 (1998), pp. 1-11.
[206] T. Van Flandern & J.P. Vigier, Foundations of Physics 32:7 (2002), pp.1031-1068.
[207] A.P. French, op. cit., pp.153-154.
[208] T.Van Flandern, Apeiron, 10:4, (October 2003), pp. 152-158. Also Apeiron 10:1 (2003), pp.69ff.
[209] N.F. Comins & W.J. Kaufmann III, “Discovering the Universe, ” 7th Edition, p.466 (W.H. Freeman & Co., New   
           York, 2005).
[210] M. Harwit, “Astrophysical Concepts”, Second edition, pp. 178, Springer-Verlag, New York, 1988.
[211] J. Magueijo, “Plan B for the Cosmos,” Scientific American, January 2001, p.47.
[212] C. Barnet, R. Davis, and W. L. Sanders, Ap. J. 295 (1985), 24.
[213] D.E. Scott, “The Electric Sky”, pp.176-177, Mikamar Publishing, 2006.
[214] K.R. Healy & A.L Peratt, Astrophysics and Space Science 227 (1995), pp.229-253
[215] J. Li, L. Ferrario & D. Wickramasinghe, Astrophysical Journal 503 (1998), L151-L154.
[216] A. Bhardwaj, G.R. Gladstone & P. Zarka, Advances in Space Research 27:11 (2001), pp.1915-1922.
[217] A. Bhardwaj & M. Michael (2002) online at http://arxiv.org/ftp/astro-ph/papers/0209/0209070.pdf.
[218] D.E. Scott, op. cit., p.178.
[219] R.T. Cahill, Progress in Physics, 4 (2006), pp.73-92
[220] A.L. Peratt, IEEE Transactions on Plasma Science, Vol. PS-14 No.6 (Dec. 1986), pp. 639-778.
[221] D.E. Scott, op. cit., p.180.
[222] “Thunderbolts” – The Tutorial Part 1 - on CD Rom from Silver Wolf Productions & the Kronia Group (2006).
[223] D.E. Scott, private communication, 11th January 2007.
[224] D.E. Scott, op. cit., p. 90.

Go to: first page, section 1, 2, 3, 4, 5, 6, 7 or appendix 1, 2, 3, 4, 5, 6, 7, 8, or tables, or figures 1-7, or figure 8 or reference page.

More Reading:

  • sensation

  • sequence

  • set

  • severe

  • shabby

  • shadowy

  • sheriff

  • shipbuilder

  • shipwreck

  • shortage