Experimental Evidence for the Essential Identity of the by Millikan R. A., Souder W. H.

By Millikan R. A., Souder W. H.

Show description

Read or Download Experimental Evidence for the Essential Identity of the Selective and Normal Photo-Electric Effects PDF

Similar electronics books

Dielectric Materials and Devices

This particular stand on my own quantity information new advancements in dielectric ceramics. It offers finished experiences of recent fabrics and product techniques and comprises issues reminiscent of fabrics synthesis and processing, relaxors & novel compositions, dielectric loss mechanisms, multiplayer ceramic units, and value research of tomorrow’s electrical units.

Analog/RF and Mixed-Signal Circuit Systematic Design

Even though within the electronic area, designers can take complete merits of IPs and layout automation instruments to synthesize and layout very advanced platforms, the analog designers’ activity remains to be regarded as a ‘handcraft’, bulky and extremely time eating approach. hence, large efforts are being deployed to boost new layout methodologies within the analog/RF and mixed-signal domain names.

Solder Paste in Electronics Packaging: Technology and Applications in Surface Mount, Hybrid Circuits, and Component Assembly

One of many most powerful developments within the layout and manufacture of contemporary electronics programs and assemblies is the usage of floor mount know-how in its place for through-hole tech­ nology. The mounting of digital units and parts onto the outside of a broadcast wiring board or different substrate deals many benefits over putting the leads of units or parts into holes.

Extra info for Experimental Evidence for the Essential Identity of the Selective and Normal Photo-Electric Effects

Sample text

R. Paul, Sorption and transport of various gases in polycarbonate, Journal of Membrane Science, 2:165-190, 1977. R. A. B. , Permeability of Plastics Films and Coatings to Gases, Vapors and Liquids, Vol. 6 of Polymer Science and Technology, pp. 49-62. Plenum Press, New York, 1974. L. -M. Zhou, C. -D. -Y. Zhang, H. -B. Wang, Influence of surface conductivity on sensitivity of acoustic wave gas sensors based on multilayered structures, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 58(2):451-460, February 2011.

A. B. -L. Marty, and R. Munoz, An approach to an inhibition electronic tongue to detect on-line organophosphorus insecticides using a computer controlled multi-commuted flow system, Sensors, ll(4):3791-3802,2011. 42. C. R. P. Bobis, A potentiostat based on a voltage-controlled current source for use with amperometric gas sensors, IEEE Transactions on Instrumentation and Measurement, 41(2):308-310, April 1992. 43. R. Turner, D. Harrison, and H. Baltes, A CMOS potentiostat for amperometric chemical sensors, IEEE Journal of Solid-State Circuits, 22(3): A73-478, June 1987.

H. Weiller, S. B. Kaner, and J. Huang, Conducting polymer nanofiber sensors, US Patent 7226530, assigned to The Aerospace Corporation (El Segundo, CA) and the Regents of the University of California (Los Angeles, CA), June 5, 2007. 68. Z. Sadek, C O . A. Powell, W. Wlodarski, R. Kaner, and K. Kalantar-Zadeh, Polyaniline nanofiber based surface acoustic wave gas sensors- Effect of nanofiber diameter on H2 response, Sensors Journal, IEEE, 7(2):213-218, February 2007. 69. L. Torsi, M. Pezzuto, P. Siciliano, R.

Download PDF sample

Rated 4.76 of 5 – based on 46 votes