WILMINGTON, MA — Morris R. “Moe” Anderson, age 68, of Wilmington, passed away on July 27, 2019.Moe was the beloved husband of devoted wife Sheila (Welch) Anderson, father of Robert Anderson of Wilmington, Michael Sweeney of Nashua and Mark Sweeney & Colleen Kerrigan of Lowell, loving “Grampy” of Corrine, Hailey and Ashlynn, cherished son of the late Robert and Norma (Mandeville) Anderson, dear brother of Roberta O’Leary & her husband Jack of Billerica, Martha Brackett & her late husband Jim of Merrimack, NH, Sydna Anderson & her husband John Kroll of Melrose, Sonja Anderson & the late Harry Opie of Lowell, brother-in-law of Kathy Slater of Lowell. Moe is also survived by many loving nieces and nephews.Family and friends will gather for Visitation at the Nichols Funeral Home, Inc., 187 Middlesex Ave., (Rte. 62), Wilmington on Wednesday, July 31st from 10:00-12:00 noon immediately followed by a Funeral Service at 12:00 noon. Interment with Military Honors will follow in Wildwood Cemetery Veterans Section, Wilmington.Memorial donation’s in Moe’s memory may be made to the Disabled American Veterans Charitable Service Trust, 3725 Alexandria Pike, Cold Spring, KY 41076 or dav.org. Moe was a U.S. Marine Veteran who proudly served during Vietnam.Morris “Moe” Anderson(NOTE: The above obituary is from Nichols Funeral Home.)Like Wilmington Apple on Facebook. Follow Wilmington Apple on Twitter. Follow Wilmington Apple on Instagram. Subscribe to Wilmington Apple’s daily email newsletter HERE. Got a comment, question, photo, press release, or news tip? Email email@example.com.Share this:TwitterFacebookLike this:Like Loading… RelatedOBITUARY: Paul L. D’Eon, 83In “Obituaries”OBITUARY: Peter G. Anderson, 68In “Obituaries”OBITUARY: Raymond E. Piretti, Jr., 81In “Obituaries”
Vijay Sethupathi in Thalapathy’s 64th movie with Lokesh Kanagaraj?PR HandoutVijay Sethupathi seems to be unstoppable at this stage. Not only is he being praised from the likes of Shah Rukh Khan and Chiranjeevi, but also he is bagging big projects. After signing Aamir Khan’s Bollywood film, he has now been approached for Vijay’s upcoming Tamil movie to be directed by Lokesh Kanagaraj.Rumours are rife that Lokesh Kanagaraj has offered an exciting role for Vijay Sethupathi in his next film. It is believed to be the role of the antagonist in the flick, which is being presently referred to as Thalapathy 64. The Vikram Vedha star is impressed by the script, but his dates are packed. Yet he has assured the director of managing the dates in order to be part of the upcoming Kollywood film.It may be recalled that Vijay Sethupathi had played one of the villains in Rajinikanth’s hit movie Petta, which hit the screens earlier this year.Vijay Sethupathi is known for doing variety of roles and loves playing challenging roles. He does not like to do the films made in regular templates. As a result, the actor has been part of wide-variety of characters in short span of time and won a huge fan following.Currently, Vijay Sethupathi is busy with the movies in multiple languages. M Manikandan’s Kadaisi Vivasayi, Vijay Chandar’s Sanga Thamizhan, SP Jananathan’s Laabam, Seenu Ramasamy’s films like Maamanithan, Idam Porul Yaeval and Sri Lankan famous cricketer Muttiah Muralitharan’s biopic along with Aamir Khan’s untitled film are the projects that he has in his hands.He has also wrapped up Chiranjeevi’s mega-budget movie Sye Raa Narasimha Reddy.On the other hand, Thalapathy 64 was formally announced a few days ago. The shooting will commence in Septemeber.
(Phys.org)—Studying substructures of galaxy clusters can reveal important information about the morphology and evolution processes of these gravity-bound groups of galaxies. Optical spectroscopy is very helpful in this matter, capable of unraveling the history of large-scale structure formation in the universe. That’s why a team of astronomers from New Zealand conducted a series of spectroscopic observations to peek into the galaxy cluster Abell 3888, unveiling that this cluster is dynamically young and might be an indicator of an ongoing or past merger event. A paper detailing the findings was published online on Feb. 11 on the arXiv pre-print server. In galaxy clustering, mass may not be the only thing that matters Citation: A peek into the merging galaxy cluster Abell 3888 (2016, February 17) retrieved 18 August 2019 from https://phys.org/news/2016-02-peek-merging-galaxy-cluster-abell.html Explore further © 2016 Phys.org More information: An Optical Analysis of the Merging Cluster Abell 3888, arXiv:1602.03756 [astro-ph.CO] arxiv.org/abs/1602.03756AbstractIn this paper we present new AAOmega spectroscopy of 254 galaxies within a 30′ radius around Abell 3888. We combine these data with the existing redshifts measured in a one degree radius around the cluster and performed a substructure analysis. We confirm 71 member galaxies within the core of A3888 and determine a new average redshift and velocity dispersion for the cluster of 0.1535 +- 0.0009 and 1181 +- 197 km/s, respectively. The cluster is elongated along an East-West axis and we find the core is bimodal along this axis with two sub-groups of 26 and 41 members detected. Our results suggest that A3888 is a merging system putting to rest the previous conjecture about the morphological status of the cluster derived from X-ray observations. In addition to the results on A3888 we also present six newly detected galaxy over-densities in the field, three of which we classify as new galaxy clusters. This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only. The team, led by Associate Professor Melanie Johnston-Hollitt of the Victoria University of Wellington in New Zealand, has used the AAOmega spectrograph installed on the 3.9-meter Anglo-Australian Telescope (AAT) situated at the Siding Spring Observatory in Australia. Thanks to the spectrograph’s 400 fibres covering a two-degree field when projected on sky, it is an excellent instrument for examining the optical substructure in nearby southern clusters.The researchers carried out their observations in May 2013. They were initially targeting nearly 800 galaxies up to 30′ radius from the centre of the cluster. In result, the team detected 254 new redshifts in this region and in combination with previous findings, they determined that Abell 3888, as the main structure, has 71 member galaxies. Importantly, the astronomers were able to identify substructures in the field that were very helpful in unraveling the merging nature of this galaxy cluster.”The combination of pieces of evidence from the optical analysis, the elongated optical galaxy distribution, and our substructure test which showed that Abell 3888 is bimodal strongly suggests that this cluster has had dynamical interactions and is highly likely to be a young cluster in an active merging state,” the paper reads.Galaxies and galaxy groups come together and merge to form larger units such as galaxy clusters. Cluster merging is believed to be a key parameter in formation and evolution of galaxy clusters. The process is very common and has a significant impact on cluster characteristics such as velocity dispersion, temperature and mass. It often generates clumps of galaxies within the cluster volume. This change in galaxy volumetric density is known as “substructure.””Substructures may be formed through the infall of individual galaxies or galaxy groups into a relaxed cluster or during the merging of two or more entire galaxy clusters,” the researchers wrote in the paper.Currently, the most robust method to detect merging is the combination of the optical and X-ray substructure analyses of clusters. Therefore, Shakouri and her colleagues underline that results from spectroscopic observations of Abell 3888 are consistent with previous findings from the X-ray studies focused on unveiling morphology of galaxy clusters.In addition, the team also detected six galaxy over-densities in the field. Three of them were classified as new galaxy clusters.The researchers concluded that further spectroscopic analysis of Abell 3888 would be useful to further probe its dynamics. They also stressed the need for single slit spectroscopy or more usefully observations with an integral field unit are required to increase the spectroscopic coverage in the cluster core. “This would allow a more detailed probe of the cluster core and better statistics on the merging populations,” the scientists noted. 10 arcmin x 10 arcmin field showing luminosity (top) and temperature (bottom) maps of Abell 3888 before (left) and after (right) point source removal. The color scale in the luminosity map is set so that white corresponds to the maximum cluster flux. The point source is 100 times brighter than this level. The scale in the temperature map ranges from 2 to 10 keV. Credit: Andersson, K. et al., 2009.
© 2017 Phys.org Explore further Demonstration of inkjet-printed bioenergy wallpaper. 1: Printed photosynthetic organisms in green; 2: Printed CNT anode; 3: Printed CNT cathode; 4: Paper substrate; 5: Solid medium. Credit: M. Sawa et al. Nature Communications The scientists, at Imperial College London and University of Cambridge, have published a paper on the new biophotovoltaic cell in a recent issue of Nature Communications.”Our biophotovoltaic device is biodegradable and in the future could serve as a disposable solar panel and battery that can decompose in our composts or gardens,” coauthor Marin Sawa at University of Arts London and Imperial College London told Phys.org. “Cheap, accessible, environmentally friendly, biodegradable batteries without any heavy metals and plastics—this is what we and our environment really need but don’t have just yet, and our work has shown that it is possible to have that.”In general, biophotovoltaic cells contain some type of cyanobacteria or algae that is phototrophic, meaning it converts light into energy. However, even in the dark these organisms continue to generate some energy by metabolizing their internal storage reserves. So when the organisms are connected to a non-biological electrode, they can function as either a “bio solar panel” when exposed to light or a “solar bio-battery” in the dark.Currently one of the biggest challenges facing biophotovoltaic cells is producing them on a large scale. Typically, the organisms are deposited onto an electrode surface from a bulky liquid reservoir. In the new study, the researchers demonstrated that inkjet printing can be used to print both the carbon nanotube electrode surface and the cyanobacteria on top of it, while allowing the bacteria to remain fully viable. This approach not only allows the cells to be fabricated quickly, but the set-up is also more compact and allows for greater precision in cell design.With these advantages, the inkjet-printed biophotovoltaic cells can generate a maximum current density that is 3-4 times higher than cells fabricated using conventional methods. To demonstrate, the researchers showed that nine connected cells can power a digital clock or generate flashes of light from an LED, illustrating the ability to produce short bursts of relatively high power. The researchers also showed that the cells can generate a continuous power output over the course of a 100-hour period consisting of light and dark cycles.In the future, the researchers plan to develop thin-film biophotovoltaic (BPV) panels and also explore potential applications as integrated power supplies in the areas of point-of-care medical diagnostics and environmental monitoring, both of which benefit from disposable, environmentally friendly biosensors. Another potential application is a bioenergy wallpaper.”The bioenergy wallpaper is a scaled-up application of our BPV system,” Sawa said. “The wallpaper will have carbon-based conductive patterns with electron-producing cyanobacteria. It turns an interior surface into an energy harvester to drive low-power applications like LED lights and/or biosensors, which can, for example, monitor indoor air quality.”The researchers also expect that the power output of the cells can be improved in a variety of ways, such as by improving circuit conductivity, optimizing cell design, and using more resilient organisms. More information: Sawa, M., Fantuzzi, A., Bombelli, P., Howe, C., Hellgardt, K., Nixon, P. “Electricity generation from digitally printed cyanobacteria.” Nature Communications. DOI: 10.1038/s41467-017-01084-4 This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only. (Phys.org)—Researchers have used a simple inkjet printer to print a “bio-ink” of cyanobacteria onto a conductive surface, creating a biophotovoltaic cell. Unlike conventional photovoltaic cells that operate only when exposed to light, the cyanobacteria can generate an electric current both in the dark and in response to light. The researchers expect that the cell may serve as an environmentally friendly power supply for low-power devices such as biosensors, and can even be scaled up to print a bioenergy wallpaper. Citation: Digitally printed cyanobacteria can power small electronic devices (2017, November 27) retrieved 18 August 2019 from https://phys.org/news/2017-11-digitally-cyanobacteria-power-small-electronic.html Researchers develop wallpaper bio-solar panel Journal information: Nature Communications
African channels Benie TV and Ouest TV have chosen Globecast to distribute their programming via satellite to new audiences in West Africa.The two channels are now part of the Canalsat bouquet delivered on the SES-4 satellite, with Globecast providing transmission services.“Viewers in French-speaking African countries are hungry for news programming and specialized content, so joining SES-4 platform is a tremendous opportunity for Benie TV and Ouest TV,” said Lionel Antoine, sales manager Africa for Globecast.“The diversity of CANALSAT offer and our leadership position in the African market, enable us to provide the service levels these channels need to achieve a maximum visibility with their target audiences.”
NBC Universal has invested US$200 million (€180 million) in news and viral media site Buzzfeed, with the companies due to explore “strategic partnerships” in the coming months.Commenting on the deal, NBCU CEO, Steve Burke, said that Buzzfeed is “among the most creative, popular and influential new media players” and uses technology, data and “superior editorial abilities” to create and share content.“BuzzFeed and NBCUniversal will be great strategic partners and we both have a lot to offer the other,” said BuzzFeed’s executive chairman, Kenneth Lerer. “We look forward to collaborating on television content, movies, the Olympics, and joint partnerships with ad agencies and brands.”The investment comes a week after NBCU also invested US$200 million in Vox Media – the parent company of digital brands like tech site The Verge, news site Vox.com and sports site SB Nation.