(This is from the original 1993 list with updates pending.)
Bolton, W. C. (1968), Physics experiments and projects, v.1 Properties of materials (New York, Oxford: Pergamon Press), Call no. QC33 .B65 1968 v.1.
Bunshah, R. F. (1968), Techniques of metals research ( New York: Interscience Publishers), Call no. TN 607 B78 V.2 PT.1.
Bunshah, R. F. (1968), Techniques of metals research ( New York: Interscience Publishers), Call no. TN 607 B78 V.2 PT.1.
Coleman, R. V. (1974), Solid state physics, Methods of Experimental Physics, v.11 (New York: Academic), Call no. QC 176 C57.
Ibach, H. and H. LĂĽth (1991), Solid state physics: an introduction to theory and experiment (Springer), ISBN 0-387-52207-7.
Lark-Horovitz, K. and V. A. Johnson (1959), Solid State Physics, Part A: preparation, structure, mechanical and thermal properties, Methods of Experimental Physics, v. 6A (Academic).
Lovesey, S. W. (1980), Condensed Matter Physics: Dynamic Correlations (Benjamin), ISBN 0-8053-6611-3 (pb), Call no. QC 176 L68.
Mundy, J. N. (1983), Ed., Solid state: nuclear methods, Methods of experimental physics, v.21 (New York: Academic), Call no. QC 176.8 L3 S65 1983.
Parker, S. P. (1987), Solid-state physics source book (McGraw-Hill), ISBN 0-07-045503-1, Call no. QC 176 S63 1988.
Richardson, R. C. and E. N. Smith (1988), Experimental Techniques in Condensed Matter Physics at Low Temperatures (Addison-Wesley), ISBN 0-201-15002-6, Call no. QC 173.4 C65 E97 1988.
Rossiter, B. W. and J. F. Hamilton, Eds., Determination of elastic and mechanical properties, Physical methods of chemistry, 2nd ed., vol. 7 (New York: Wiley), Call no. QD61 .P47 1986 v.7.
Rossiter, B. W. and J. F. Hamilton, Eds., Determination of thermodynamic properties, Physical methods of chemistry, 2nd ed., vol. 6 (New York: Wiley), Call no. QD61 .P47 1986 v.6.
Rossiter, B. W. and J. F. Hamilton, Eds., Determination of structural features of crytalline and amorphous solids, Physical methods of chemistry, 2nd ed., vol. 5 (New York: Wiley), Call no. QD61 .P47 1986 v.5.
Wooster, W. A. (1970), Experimental crystal physics (London: Clarendon P.), Call no. QD931 .W57 1970.
Anderson, P. M., III and A. E. Lord, Jr. (1978), "Demonstration of phase transition and properties of metallic glasses for undergraduates," AJP 46, 80-82.
Connelly, J. J., Jr. (1969), "Miller indices demonstration model," AJP 37, 333-334.
Cunningham, R. L. and j. Ng-Yelim (1965), "Ejectionof atoms from metallic single crystals," AJP 33, 1064-1069.
Dunlap, R. A. (1987), "The use of amorphous metallic ribbon as a torsion spring for the measurement of the gravitational constant," AJP 55, 380.
Jin, C., K. H. Van Bladel, C. M. Edwards, J. R. Brookeman, and N. S. Sullivan (1987), "Analog simulation of interacting diatomic molecules on two-dimensional lattices," AJP 55, 565-570.
Johnson, A. D. and Jr. McNichols (1986), "Comments on "Demonstration solid state engine" [R. D. Spence and M. J. Harrison, Am. J. Phys. 52, 1144 (1984)]," AJP 54, 745-746.
Kiewit, D. A. (1972), "A simple demonstration of the pinning of deformation fronts," AJP 40, 618-620.
Lehmann, C. (1979), "A simple way to demonstrate nuclear blocking patterns of crystal lattices," AJP 47, 289-290.
Lehmann, C. (1979), "Structure and vibrational behavior of intestitial atoms in metals: an air table demonstration," AJP 47, 539-541.
Lehmann, C. and M. Rosenbauer (1980), "Focusing and defocusing collisions of atoms in solids: a classroom demonstration," AJP 48, 496-497.
Miles, C. L. (1975), "Solid-solid phase transitions: a projection demonstration," AJP 43, 650-652.
Milstein, F. and P. W. Smith, Jr. (1975), "Materials science undergraduate course laboratory in which students perform original research," AJP 43, 793-798.
Mortlock, A. J. (1965), "Simplified experiment demonstrating interstitial diffusion in alpha iron," AJP 33, 1033-1036.
Rahimi, S., R. Woolcott, Jr., and V. Shuck (1990), "Controlling the temperature of solid samples," AJP 58, 1210-1212.
Betrencourt, C., E. Guyon, and G. Giraud (1980), "Teaching physics out of a bag of marbles," EJP 1, 206-211.
Shiells, R. (1984), "The cracking of glass by impact," PE 19, 79-81.
Zandman, F., S. Redner, and J. W. Dally (1977), Photoelastic Coatings (Society for Experimental Stress Analysis), ISBN 0-8138-0035-8, Call no. TA 418.12 Z36.
Barnes, G. (1976), "Photoelasticity demonstration with an overhead projector," AJP 44, 1138-1139.
Britton, W. G. B., J. J. Fendley, and M. E. Michael (1978), "Longitudinal impact of rods: a continuing experiment," AJP 46.
Bruce, I. (1992), "The elastic constant of a rubber tube," AJP 60, 157-160.
Bullen, T. G., F. S. C. H. (1965), "Determination of Young's modulus in the freshman laboratory," AJP 33, 855.
Drechsler, M. (1971), "Elastic crystal models," AJP 39, 545-555.
Flores-Maldonado, J., S. Galindo, and H. Jimenez-Dominguez (1987), "Note on an apparatus for Young's modulus measurement," AJP 55, 664-5.
Flores-Maldonado, J., S. Galindo, and H. Jimenez-Dominguez (1988), "Erratum: "Note on an apparatus for Young's modulus measurement" [Am. J. Phys. 55, 664 (1987)]," AJP 56, 856.
Hwu, Y. P. (1991), "Time-average holographic method on the the determination of Young's modulus," AJP 59, 287.
Pifer, J. H. (1975), "Us of the Young's modulus apparatus to study the strength of metals," AJP 43, 367-368.
Rossing, T. D. and D. A. Russell (1990), "Laboratory observation of elastic waves in solids," AJP 58, 1153-62.
Scott, B. (1977), "Inexpensive measurements of the elastic constants of steel," AJP 45, 45-47.
Shanker, G., V. K. Gupta, B. Saraf, and N. K. Sharma (1985), "Temperature variation of modulus of rigidity and internal friction: an experiment with torsional oscillator," AJP 53, 1192-1195.
Turvey, K. (1990), "An undergraduate experiment on the vibration of a cantilever and its application to the determination of Young's modulus," AJP 58, 483-7.
Tyagi, S. and A. E. Lord, Jr. (1979), "An inexpensive torsional pendulum apparatus for rigity modulus measurement," AJP 47, 632-633.
Tyagi, S. and A. E. Lord, Jr. (1980), "Simple and inexpensive apparatus for Young's modulus measurement," AJP 48, 205-206.
Wilson, F. and A. E. Lord, Jr. (1973), "Young's modulus determination via simple, inexpensive static and dynamic measurements," AJP 41, 653-656.
Turvey, K. (1989), "Investigation of the frequencies of in-plane modes of a thin circular singly clamped ring with application to young's modulus determination," EJP 10.
Hwu, Y. P. (1992), "Double exposure holographic method for the determination of Young's modulus," PE 27, 231-232.
Livesley, D. M. (1986), "Physics and the real world: a non-ideal experiment in elasticity," PE 21, 293-295.
Richards, D. A. (1981), "Extension - load curves for materials under tension," PE 16, 44-46.
Chaturvdi, D. K. and J. S. Baijal (1974), "Normal modes of oscillation for a finite one-dimensional diatomic lattice," AJP 42, 482-486.
Cross, R. C. (1985), "Demonstration of wave propagation in a periodic structure," AJP 53, 563-567.
Deacon, C. G., J. R. de Bruyn, and J. P. Whitehead (1992), "A simple method of determining Debye temperatures," AJP 60, 422-425.
Howland, L. P. (1965), "Demonstrations of waves on an air track," AJP 33, 269-279.
Joyce, W. B. (1975), "Radiation force and the classical mechanics of photons and phonons," AJP 43, 245-255.
Nöldeke, C., W. Press, and A. Huller (1991), "A magnetic model for the demonstration of phase transitions and excitations in molecular crystals," AJP 59, 260-269.
Pieranski, P. (1984), "An experimental model of a classical many-body system," AJP 52, 68-73.
Santos, M. S., E. S. Rodrigues, and P. M. C. de Oliveira (1990), "Spring-mass chains: theoretical and experimental studies," AJP 58, 923-928.
Tomlin, D. H. (1980), "An electrical network analog of vibrations of a linear lattice," EJP 1, 129-133.
Azaroff, L. V. and R. Kaplow, Kato, N., Weiss, R.J., Wilson, A.J.C., and Young, R.A. (1974), X-Ray Diffraction (McGraw-Hill), ISBN 0-07-002672-6, Call no. QC 482 D5 X7.
Cowley, J. M. (1981), Diffraction Physics, 2nd revised ed. (North-Holland), ISBN 0-444-86925-5 (pb), Call no. QC 415 C75 1981.
Cullity, B. D. (1978), Elements of X-ray Diffraction, 2nd ed. (Addison-Wesley), ISBN 0-201-01174-3.
James, R. W. (1953), X-Ray Crystallography, 5th ed. (Methuen/Wiley).
Kaelble, E. F. (1967), Ed., Handbook of X-rays: for diffraction, emission, absorption, and microscopy (McGraw-Hill).
Krivoglaz, M. A. (1969), Theory of X-Ray and Thermal Neutron Scattering from Real Crystals (Plenum).
Lovesey, S. W. (1984), Theory of Neutron Scattering from Condensed Matter, Vol. 1 (Oxford Univ. Press), ISBN 0-19-852028-X (pb), Call no. QC 793.5 N4628 L68 1984.
Lovesey, S. W. (1984), Theory of Neutron Scattering from Condensed Matter, Vol. 2 (Oxford Univ. Press), ISBN 0-19-852029-8 (pb), Call no. QC 793.5 N4628 L68 1984.
Margaritondo, G. (1988), Introduction to Synchotron Radiation (Oxford Univ. Press), ISBN 0-19-504524-6, Call no. QC 793.5 E627 M27 1988.
Marshall, W. and S. W. Lovesey (1971), Theory of Thermal Neutron Scattering (Oxford).
Rochow, T. G. and E. G. Rochow (1978), An introduction to microscopy by means of light, x-rays, or ultrasound (Plenum), ISBN 0-306-31111-9, Call no. QH 205.2 R63.
Schwartz, L. H. and J. B. Cohen (1987), Diffraction from materials, 2nd ed. (Springer), ISBN 0-387-17114-2, Call no. QC 415 S38 1987.
Skold, K. and D. L. Price (1986), Neutron scattering, Methods of experimental physics, v. 23 (Orlando, Florida: Academic), Call no. QC 793.5 N4628 N496 1986.
Warren, B. E. (1969), X-ray Diffraction (Addison-Wesley), ISBN 0-201-08524-0.
Willis, E. T. M. (1973), Ed., Chemical applications of thermal neutron scattering (Oxford).
Zachariasen, W. H. (1967), Theory of X-ray Diffraction in Crystals (Dover), ISBN 0-486-61841-2 (pb).
Bradley, G. and J. Dewitt (1968), "Models for microwave analogs of Bragg scattering," AJP 36, 920.
Bullen, T. G. (1969), "An improved version of the Welch-Bragg diffraction apparatus," AJP 37, 333.
Hayn, C. H. (1973), "A student x-ray diffraction experiment," AJP 41, 968-971.
Hayn, C. H. (1974), "Response to Bruce Horn's comment [Bruce Horn, Am. J. Phys. 42, 257 (1974)]," AJP 42, 258-259.
Hoover, R. B. (1969), "Diffraction plates for classroom demonstrations," AJP 37, 871-876.
Janot, C., J. M. Dubois, and M. de Boissieu (1989), "Quasiperiodic structures: another type of long-range order for condensed matter," AJP 57, 972-987.
Jin, C., K. H. Van Bladel, C. M. Edwards, J. R. Brookeman, and N. S. Sullivan (1987), "Analog simulation of interacting diatomic molecules on two-dimensional lattices," AJP 55, 565-570.
Litvin, S. Y., A. B. Romberger, and D. B. Litvin (1988), "Generation and experimental measurement of a one-dimensional quasi-crystal diffraction pattern," AJP 56, 72-75.
Matthys, D. R. (1982), "Greninger nets for backscattered Laue analysis," AJP 50, 555-6.
McIrvin, M. J. (1993), "The Fibonacci ruler," AJP 61, 36-39.
Mitchell, G. R. (1978), "The reciprocal lattice - a demonstration," AJP 46, 574-575.
Muldawer, L. (1969), "Resource letter XR-1 on X-rays," AJP 37, 123-134.
Murray, W. H. (1974), "Microwave diffraction techniques from macroscopic crystal models," AJP 42, 137-140.
Russo, P. and A. D. Brothers (1982), "Powder diffraction patterns on the Tel-X-Ometer 80," AJP 50, 89-90.
Sickafus, E. N. (1966), "Stacking fault model fcc-hcp unit cell transformation," AJP 34, 1064-1065.
Winder, D. R. (1970), "Orientation of hexagonal crystals," AJP 38, 319-326.
Forrest, A. M. (1988), "X-ray diffraction with a microcomputer," EJP 9, 18-23.
Rodriguez, R., M. Barboza-Flores, S. Perez, and A. Clark (1992), "A laboratory project to obtain the low temperature lattice constants of ionic crystals," EJP 13, 189-192.
Spraget, H. W. G. (1984), "Simulation of crystal orientation by Laue x-ray diffraction," PE 19, 198-200.
Thompson, P. W. (1992), "Apparatus to simulate electron diffraction by polycrystalline materials," PE 27, 162-163.
Aziz, R. A. (1966), "Demonstration of simgle crystal making," AJP 34, 167.
Bedarida, F., L. Zefiro, and C. Pontiggia (1980), "Role of convection in crystal growth from solution checked with holographic interferometry," AJP 48.
Engels, C. J. (1973), "Instant crystals," AJP 41, 744-745.
Mikhail, S. Z. (1965), "Radioisotopes in zone refining - a student experiment," AJP 33, 399-402.
Strong, H. M. (1989), "Early diamond making at General Electric," AJP 57, 794-802.
Strong, H. M. and R. H. Wentorf, Jr. (1991), "Growth of large, high quality diamond crystals at General Electric," AJP 59, 1005-1008.
Cabric, B., B. Zizic, and M. Lj Napijalo (1990), "An apparatus for crystal growth in the undergraduate laboratory," EJP 11, 233-235.
Culpin, M. F. (1979), "Formation of dendrites in cyclohexanol," PE 14, 249-250.
Davies, G. R. (1983), "Some colourful television physics demonstrations," PE 18, 84-85.
Fox, J. N. and R. H. McMaster (1975), "Measurement of the thermal properties of a metal using a relaxation method," AJP 43, 1083-1086.
Weir, R. D. (1972), "Analysis of low-temperature heat capacity data," AJP 40, 1085-1091.
Millar, G. (1986), "An experiment to determine gamma," PE 21, 116-118.
Fox, J. N. (1990), "Measurement of thermal expansion coefficients using a strain gauge," AJP 58, 875-7.
Fox, J. N. and R. H. McMaster (1975), "Measurement of the thermal properties of a metal using a relaxation method," AJP 43, 1083-1086.
Canova, B. P. (1992), "Laplace's equation in freshman physics," AJP 60, 135-138.
Dodson, B. W. and T. L. Hunzeker (1973), "A quantitiative demonstration of conductive heat transfer," AJP 41, 281-282.
du Plessis, L. A. (1982), "Transistor probe for thermal conductivity," AJP 50, 1171-2.
Fox, J. N. and R. H. McMaster (1975), "Measurement of the thermal properties of a metal using a relaxation method," AJP 43, 1083-1086.
Fuller, R. M. and R. G. Fuller (1972), "Research project for undergraduates: ionic thermoconductivity in dielectrics," AJP 40, 883-887.
Jensen, H. G. (1970), "Kohlrausch heat conductivity apparatus for intermediate or advanced laboratory," AJP 38, 870-874.
Talpe, J. H., V. I. Bekeris, and C. E. Acha (1990), "Measurement of thermal conductivity and heat capacity in an undergraduate physics laboratory," AJP 58, 379-81.