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The RT-50+ provides all of the best qualities of the RT-50 with the tonal stability provided by the heavy shell design. The added weight allows more projection of the sound while retaining a dark core of sound. It works really well when very loud dynamics are required but also makes the response easy for soft dynamics.

University of Dayton English professor Bryan Bardine contributes to the field of metal music studies with the publication of his latest book, Living Metal: Metal Scenes Around the World. Believed to be the first study of its kind, the book examines international metal scenes from smaller communities like Dayton to entire countries, such as Brazil and England.

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Bardine edited the book with Mount St. Joseph University professor Jerome Stueart. The 13 chapters highlight heavy metal music scenes across six continents. The chapters are deeply embedded in local histories and contexts and provide important analyses of their respective scenes.

UC Berkeley nuclear physics faculty work on low-energy neutrino physics, including solar and supernova neutrinos; nuclear astrophysics, including the origin of the elements and the nuclear physics of dark matter direct and indirect detection; studies of ultra-relativistic heavy ion collisions, to probe the properties of strongly interacting matter at extreme energy densities; electroweak interactions, including tests of symmetries using neutrinoless double beta decay and electric dipole moments; and various aspects of many-body physics. We are closely connected to and affiliated with our sister groups in Astrophysics and Particle Physics.

The load seems reasonable for an established lecturer, but is a little heavy, by UK standards, for a first year lecturer. It might be worth asking for a partial teaching (or marking or tutoring) release for the first year.

The bare data of "100 hours" is not very meaningful. In France (continuing the big list), the legal workload of a lecturer or professor is 192 hours of teaching per year, in all departments in all universities. There are serious caveats:

In Germany, we talk about classroom hours. University professors typically have 9 classroom hours per semester, professors at universities of applied sciences 18 classroom hours. One such hour equates 45 minutes and is only to be done during semester. There is two semesters per year, lasting approximately 15 weeks each. Preparation times and exams are in top of those classroom hours. In other words: a university professor would face about 200 classroom (60min-)hours per year and is still expected to mostly focus on research, while preparatory/exam time comes on top of those 200 hours. A professor working for a university of applied sciences would look at 400 hours with almost no research obligations.

The multidisciplinary research undergone in Abergel's group is at the interface of coordination chemistry, nuclear chemistry, radiochemistry, photophysics, chemical biology, health physics, pharmacology, and molecular and cellular biology. The group studies the effects of heavy element and inorganic isotope exposure and contamination on different biological systems in addition to the coordination chemistry and metabolic properties of lanthanide and actinide complexes formed with synthetic and biological ligands. Goals are to gain a better understanding of the biological coordination chemistry and toxicity mechanisms of the f-elements and to develop specific strategies for decontamination, waste management, remediation, separation, and radiopharmaceutical development.

Abergel also leads a large collaborative effort on the development of new drug products for the treatment of populations contaminated with heavy metals and radionuclides. One of these products was granted an Investigational New Drug status from the U.S. Food and Drug Administration in 2014 and is now entering a Phase I clinical trial.

Ha is a candidate for the human geographer assistant professor position in the K-State geography department. His presentation is sponsored by the Beta Psi chapter of Gamma Theta Upsilon, the international geographic honor society, and the geography department.

In addition to Albrecht-Schmitt, the study was led by University at Buffalo chemistry professors Jochen Autschbach and Eva Zurek as well as Manfred Speldrich, a researcher at Aachen University in Germany.

Greater understanding of heavier elements opens the door to additional strategies to control chemical separation used in nuclear recycling and in designing resilient materials for long-term storage of radioactive elements, Albrecht-Schmitt said. The research team believes the results they achieved related to curium will translate to other heavy elements as well.

Frank Geurts is a Professor of Physics & Astronomy at Rice University in Houston, Texas. He joined Rice in 2008 and leads the Experimental Relativistic Heavy Group. Frank received his Ph.D. at Utrecht University in the Netherlands, and since then has worked at Philips Research Laboratories ("Nat.Lab") in the Netherlands, Rice University in Houston, and at CERN (Geneva, Switzerland). While at Philips Research, he worked in the Digital Design group he has been involved in various heavy-ion experiments, ranging from the fixed-target CERN-SPS WA93 and WA98 experiments, to the STAR experiment at the Relativistic Heavy Ion Collider at Brookhaven National Lab and the CMS experiment at CERN's Large Hadron Collider. Frank has been convener of the Light Flavor Spectra Physics Working group, and Physics Analysis Coordinator. He currently serves as Deputy Spokesperson of the STAR Collaboration. In addition, he is involved in the CMS collaboration where he leads the online software group of the Endcap Muon detector system.

Nicole del Rosario is a beer and spirits enthusiast based in Leipzig, Germany. Training to be an actual professor by day and an alcohol professor by night, she spends most of her mornings pondering Kantian ethics at the university and her evenings drinking her way through Europe. Don't be shy and come say hi on Twitter: @happyhegelian.

Esa Lilja, an adjunct professor of musicology at the University of Helsinki, loves heavy metal. Many people are surprised to learn that the genre has attracted a significant quantity of academic research.

With more heavy metal bands per capita than anywhere else in the known universe, Finland is at the heart of the tight-knit global metal community. We see how they determine which Finnish city gets the title of Capital of Metal. We also talk with the Finnish university researcher behind the annual Modern Heavy Metal Conference.

BERKELEY--Nuclear chemist Darleane C. Hoffman, a chemistry professorof the graduate school at the University of California, Berkeley, has beenchosen to receive the Priestley Medal, the highest honor of the AmericanChemical Society.

The award, announced in a recent issue of the society's publication Chemicaland Engineering News, recognizes distinguished service to chemistry. Hoffman,professor at UC Berkeley since 1984, is also a faculty senior scientistand co-leader of the Heavy Element Nuclear and Radiochemistry Group at LawrenceBerkeley National Laboratory (LBNL).

In the field of nuclear chemistry, Hoffman's research has focused onthe heaviest elements known to science. During her career she has soughtexamples of the heavy elements in nature, helped develop rapid chemicalseparation of short-lived fission products, and has studied the spontaneousfission process, the separation chemistry of lanthanide and actinide elements,and the chemical and nuclear properties of the heaviest elements.

Hoffman's accomplishments include the discovery of plutonium-244 in nature,the first observation of enhanced symmetric mass division in spontaneousfission of heavy fermium isotopes, the first direct proof of electron-capturedelayed fission, and the development of "atom-at-a-time" chemistry,which permits the study of heavy elements with half-lives of a minute orless. Her group performed the first studies of the aqueous chemistry ofelement 105 and confirmed the discovery of element 106 (seaborgium, theheaviest element on which chemistry has been done). She and her coworkersalso are participating in an international collaboration that has performedthe first studies of its chemical properties.

"In nuclear science, we are in a renaissance period," she said,mentioning new predictions of much more stable isotopes of the elementsabove 106, with the possibility of half-lives of 50 years and longer forvery heavy isotopes of elements 108 through 114.

She spent 1978 and 1979 at UC Berkeley as a Guggenheim Fellow with agroup led by Glenn Seaborg, a Nobel Prize-winning chemist who died earlierthis year. She returned to Los Alamos to be division leader of the Chemistry-NuclearChemistry and Isotope & Nuclear Chemistry divisions. In 1984, she returnedto UC Berkeley as professor of nuclear chemistry and group leader at LBNL.

To examine endogenous anabolic hormone and growth factor responses to various heavy resistance exercise protocols (HREPs), nine male subjects performed each of six randomly assigned HREPs, which consisted of identically ordered exercises carefully designed to control for load [5 vs. 10 repetitions maximum (RM)], rest period length (1 vs. 3 min), and total work effects. Serum human growth hormone (hGH), testosterone (T), somatomedin-C (SM-C), glucose, and whole blood lactate (HLa) concentrations were determined preexercise, midexercise (i.e., after 4 of 8 exercises), and at 0, 5, 15, 30, 60, 90, and 120 min postexercise. All HREPs produced significant (P less than 0.05) temporal increases in serum T concentrations, although the magnitude and time point of occurrence above resting values varied across HREPs. No differences were observed for T when integrated areas under the curve (AUCs) were compared. Although not all HREPs produced increases in serum hGH, the highest responses were observed consequent to the H10/1 exercise protocol (high total work, 1 min rest, 10-RM load) for both temporal and time integrated (AUC) responses. The pattern of SM-C increases varied among HREPs and did not consistently follow hGH changes. Whereas temporal changes were observed, no integrated time (AUC) differences between exercise protocols occurred. These data indicate that the release patterns (temporal or time integrated) observed are complex functions of the type of HREPs utilized and the physiological mechanisms involved with determining peripheral circulatory concentrations (e.g., clearance rates, transport, receptor binding). All HREPs may not affect muscle and connective tissue growth in the same manner because of possible differences in hormonal and growth factor release. e24fc04721