Rod Smallwood, co-manager of heavy metal band, Iron Maiden and co-founder in 1976 of Sanctuary Records, now the world's largest music management company. The company was named after the Maiden song by the same name. His business partner is Andy Taylor, who he met when students at Trinity College, Cambridge. Heavy metals, in chemistry, are chemical elements of a particular range of atomic weights. ... Iron Maiden is a British heavy metal band from east London. ... Sanctuary Records is the largest independent record label in the United Kingdom, and the largest music management company in the world, looking after around 120 acts. ... Andy Taylor, co-manager of heavy metal band, Iron Maiden and co-founder in 1976 of Sanctuary Records, now the worlds largest music management company. ... Full name The College of the Holy and Undivided Trinity Motto Virtus vera nobilitas Virtue is true Nobility Named after The Holy Trinity Previous names Kings Hall and Michaelhouse (until merged in 1546) Established 1546 Sister College Christ Church Master Martin Rees, Baron Rees of Ludlow Location Trinity Street...
Smallwood claimed that the incident was a "premeditated and coordinated attack" on Iron Maiden.
Smallwood added, "We know who authorized the making of the "Ozzy - Ozzy" chant tape the day before and how it was played secretly through the PA at the very beginning and end of our set.
Smallwood concluded by saying he was "immensely proud" of the way Maiden handled themselves throughout the incident, and that the band deserves an apology "from a number of people, and you know who you are."
Smallwood R, Metherall P, Hose D, Delves M, Pollock H, Hammiche A, Hodges C, Mathot V and Willcocks P (2002) Tomographic imaging and scanning thermal microscopy: thermal impedance tomography.
Smallwood R H, Keshtkar A, Wilkinson B A, Lee J A and Hamdy F C (2002) Electrical impedance spectroscopy (EIS) in the urinary bladder: the effect of inflammation and edema on identification of malignancy.
Walker D C, Smallwood R H, Keshtkar A, Wilkinson B A, Hamdy F C and Lee J A (2005) Modelling the electrical properties of bladder tissue – quantifying impedance changes due to inflammation and oedema.
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