Letter from Theodore Bilbo to Sam H. Smith; April 6, 1940.

From the Ellard-Murphree-Pilgreen-Smith Family Papers Collection. Letter from Theodore to Sam, explaining his endorsement to Governor Johnson on Sam\u27s behalf. Letter to the Governor enclosed.https://athenacommons.muw.edu/smithpapers/1162/thumbnail.jp

Letter from Theodore Bilbo to Sam H. Smith; May 1, 1940.

From the Ellard-Murphree-Pilgreen-Smith Family Papers Collection. Second etter from Theodore to Sam, explaining his endorsement to Governor Johnson on Sam\u27s behalf. Letter to the Governor enclosed.https://athenacommons.muw.edu/smithpapers/1163/thumbnail.jp

Letter from Dennis Murphree to Sam Smith; February 29, 1940.

From the Ellard-Murphree-Pilgreen-Smith Family Papers Collection. Letter from Dennis Murphree to Sam Smith; February 29, 1940. Dennis Murphree is assuring Sam Smith that he will approach the newly elected Governor Johnson to advocate for Sam\u27s reappointment to his position. He won\u27t guarantee it will work.https://athenacommons.muw.edu/smithpapers/1160/thumbnail.jp

Burial Permit: Johnson, Infant

State Board of Health of Florida, Bureau of Vital Statistics Burial or Removal Permit for Infant of Sam Johnson, stillborn. Undertaker: Holmes Funeral Director

Photoactivated chemotherapy (PACT) : the potential of excited-state d-block metals in medicine

The fields of phototherapy and of inorganic chemotherapy both have long histories. Inorganic photoactivated chemotherapy (PACT) offers both temporal and spatial control over drug activation and has remarkable potential for the treatment of cancer. Following photoexcitation, a number of different decay pathways (both photophysical and photochemical) are available to a metal complex. These pathways can result in radiative energy release, loss of ligands or transfer of energy to another species, such as triplet oxygen. We discuss the features which need to be considered when developing a metal-based anticancer drug, and the common mechanisms by which the current complexes are believed to operate. We then provide a comprehensive overview of PACT developments for complexes of the different d-block metals for the treatment of cancer, detailing the more established areas concerning Ti, V, Cr, Mn, Re, Fe, Ru, Os, Co, Rh, Pt, and Cu and also highlighting areas where there is potential for greater exploration. Nanoparticles (Ag, Au) and quantum dots (Cd) are also discussed for their photothermal destructive potential. We also discuss the potential held in particular by mixed-metal systems and Ru complexes

Coalition for Prisoners\u27 Rights Newsletter, Vol 41-xx, No. 3

Separate and Unequal More Limits on JLWOP? Interested in Art? The Sam Johnson Essay Award Are you an American Indian? Sindicato De Agentes de la Patrulla Fronteriza Apoya a Trump Some Number

“Johnson Forever!” Revisiting a Hero of the Seven Years War

William Johnson moved to New York from his ancestral homeland Ireland in 1738 and soon became one of the most influential and prosperous colonists of his time. As a trader, land developer, speculator and government official, he co-operated extensively with the tribes of the Six Nations Iroquois Confederacy. Considered a fair and honest man by these people, Johnson developed close personal and economic relationships with many of them, especially within the Mohawk tribes. So when the British and French clashed between 1744 and 1748 (King George’s War), the New York colonial government turned to Johnson

Empirical Color Transformations Between SDSS Photometry and Other Photometric Systems

We present empirical color transformations between the Sloan Digital Sky Survey (SDSS) ugriz photometry and Johnson-Cousins UBVRI system and Becker's RGU system, respectively. Owing to the magnitude of data that is becoming available in the SDSS photometric system it is particularly important to be able to convert between this new system and traditional photometric systems. Unlike earlier published transformations we based our calculations on stars actually measured by the SDSS with the SDSS 2.5-m telescope. The photometric database of the SDSS provides in a sense a single-epoch set of 'tertiary standards' covering more than one quarter of the sky. Our transformations should facilitate their use to easily and reliably derive the corresponding approximate Johnson-Cousins or RGU magnitudes. The SDSS survey covers a number of areas that were previously established as standard fields in the Johnson-Cousins system, in particular, fields established by Landolt and by Stetson. We used these overlapping fields to create well-photometered star samples on which our calculated transformations are based. For the RGU photometry we used fields observed in the framework of the new Basel high-latitude field star survey. We calculated empirical color transformations between SDSS photometry and Johnson-Cousins UBVRI and Becker's RGU system. For all transformations we found linear relations to be sufficient. Furthermore we showed that the transformations between the Johnson-Cousins and the SDSS system have a slight dependence on metallicity.Comment: 11 pages, 7 figures, Accepted for publication in A&