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Premier Badminton League 2018-19 final live stream: When, where to watch Bengaluru Raptors vs Mumbai Rockets badminton match

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first_imgMumbai Rockets will face Bengaluru Raptors in the set up a summit clash of the Premier Badminton League Season 4 in Bengaluru on Sunday.Mumbai will hope to be third time lucky in the final on Sunday after losses to the Delhi Acers and the Chennai Smashers in the first two seasons.What time does Bengaluru Raptors vs Mumbai Rockets match in Premier Badminton League 2018-19 final start?The PBL 2018-19 match between Bengaluru Raptors vs Mumbai Rockets will start at 7 PM IST at the Kanteerava Indoor Stadium in Bengaluru.What TV channel and live streaming is the Premier Badminton League 2018-19 final match between Bengaluru Raptors vs Mumbai Rockets?Star Sports 1 and Star Sports 1 HD will show the match on TV. Hotstar will live stream Bengaluru Raptors vs Mumbai Rockets match.Where will the PBL 2018-19 final match between Bengaluru Raptors vs Mumbai Rockets be played?The PBL 2018-19 final match Bengaluru Raptors vs Mumbai Rockets will be played at the Kanteerava Indoor Stadium in Bengaluru.Where can I watch the Bengaluru Raptors vs Mumbai Rockets live?The match will be shown in Star Sports network and can also be streamed on Hotstar.com.What are the squads for the PBL 2018-19 final match between Bengaluru Raptors vs Mumbai Rockets?Bengaluru RaptorsKidambi Srikanth, B Sai Praneeth, Hendra Setiawan, Lauren Smith, Marcus Ellis, Mithun Manjunath, Mohammad Ahsan, Sanjana Santosh, Thi Trang Vu, Tien Minh NguyenMumbai RocketsLee Young Dae, Anders Antonsen, Anura Prabhudesai, Kim Gi Jung, Kuhoo Garg, Manu Attri, Pia Zebadiah Bernadeth, Pratul Joshi, Sameer Verma, Shreyanshi Pardeshiadvertisementlast_img read more

RuthAnne Pays Homage To Her Celtic Roots For Press Play

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first_img Email Press Play: RuthAnne Shares Celtic Roots ruthanne-pays-homage-her-celtic-roots-press-play RuthAnne Pays Homage To Her Celtic Roots For Press Play Twitter The Irish singer/songwriter has been writing hits for pop stars for over a decade, and in 2018 she released her solo debut single, “The Vow.” In the latest episode of the Recording Academy’s Press Play, she offers a heartfelt performance of the songAna YglesiasGRAMMYs Jan 24, 2019 – 10:07 am Irish singer/songwriter RuthAnne has been penning hits for pop stars for over a decade. She moved to Los Angeles from Dublin when she was just 17 and hit the road running as a co-writer on JoJo’s “Too Little Too Late” in 2006. It wasn’t until recently that she decided it was time to take center stage herself.In March 2018, she released “The Vow,” her debut single as a solo artist. The song’s folksy melody and heartfelt lyrics are a nod to her roots: traditional Celtic music and her parents’ 43-year marriage.Here, RuthAnne offers a passionate and soulful performance of the song on the fifth episode of the Recording Academy’s latest video series, Press Play, which will let you discover, get to know and love artists you may not have heard yet through original performances. NETWORK ERRORCannot Contact ServerRELOAD YOUR SCREEN OR TRY SELECTING A DIFFERENT VIDEO Jan 24, 2019 – 10:06 am RuthAnne Shares Celtic Roots: Press Play News Facebook PlayIn this episode of Press Play, RuthAnne puts the passion behind her personal debut single on display. “The Vow” is the lead single to her upcoming debut album, which will include songs she wrote from her personal experiences growing into adulthood while navigating the music industry in L.A.”I was thinking about my parents, who have been married for 43 years. I was thinking about my best friend. I called it ‘The Vow’ because it’s what you’d hear at a wedding, or like best friends on this journey, or a mother to a daughter…Someone just saying ‘no matter what happens, I’m gonna love you,'” RuthAnne told Billboard.RewindSinger/songwriter RuthAnne was born Ruth-Anne Cunnigham in Donaghmede, Ireland. She started singing and songwriting at just eight years old, showing off a natural affinity towards—and passion for—music in musical theater productions and karaoke contests.In 2007, she was acknowledged for her songwriting talents by ASCAP with their “Best Pop Song” Award for JoJo’s “Too Little Too Late.” She also earned two BMI Pop Awards in 2018 for co-writing “Slow Hands” by fellow Ireland native (and former One Direction star) Niall Horan and “In The Name Of Love” by Martin Garrix and GRAMMY nominee Bebe Rexha.RuthAnne’s list of songwriting credits is impressive; she also co-wrote GRAMMY winner Britney Spears’ “Work B**ch,” as well as One Direction’s “Where Do Broken Hearts Go” and “No Control.”RecordWhile flexing her hit-writing skills, she also revealed her vocal prowess on a handful of features over the years, including GRAMMY winner Cedric Gervais’ “Missing You” in 2014 and Lindsey Stirling’s “Love’s Just a Feeling” in 2016, both under the name Rooty. Following the release of “The Vow,” RuthAnne continued to launch her career as a solo recording artist with three more singles; the most recent one, “It Is What Is,” was released in November.RuthAnne was featured in the latest season of the Recording Academy’s ReImagined series, offering her take on GRAMMY winners TLC’s classic 1994 hit “Waterfalls.”Fast-forwardRuthAnne’s debut album is in the works, with its title and release date yet to be announced. She has previously mentioned that she is planning a U.S. and European tour in support of the new album, yet only a handful of European performances have been announced so far. Shawn James Shares His Folksy Southern Blues & Soul For Press PlayRead morelast_img read more

Reliance Jio vs BSNL Is Abhinandan151 plan better than Rs 149 prepaid

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first_imgCallsUnlimitedUnlimited TelcosBSNL Abhinandan-151 PlanReliance Jio Rs 149 Plan BSNL revises prepaid planTwitter/BSNLBSNL and Reliance Jio are going neck-to-neck with these plans, but the latter paces ahead with its 4G data offering as compared to BSNL’s 3G limitation. The state-run carrier hasn’t made the switch to 4G even when all major telcos in the country have. This is a major setback for those who want higher data speed.But users who are already on BSNL’s network can surely benefit from this Rs 151 prepaid plan. In case you’re looking to switch and mobile data is a priority, Reliance Jio is a sound choice. There are affordable data plans, calls are unlimited in all of them, along with free SMS and national roaming. Airtel comes extremely close to Reliance Jio if we’re talking about competition, so you can choose between the two. Validity24 days28 days Airtel vs Reliance Jio: Which network is faster in India? Close The competition between telcos isn’t slowing down. It is a lucrative industry and the operator with the highest subscribers gain the biggest profits. In a bid to win over subscribers, telcos have resorted to extreme measures, offering competitive plans to suit users’ daily data and calling needs. BSNL is upping the ante with its newly revised plan – Abhinandan-151.BSNL’s Abhinandan-151, needless to say, is a tribute to IAF Wing Commander Abhinandan and has now been revised to offer 500MB extra data for the same plan. BSNL announced on Twitter that users will be able to get 1.5GB data per day with its Rs 151 prepaid plan in addition to unlimited calls and 100 SMS per day.While it sounds tempting, BSNL’s Abhinandan-151 Plan has a tough competition ahead. Reliance Jio has been offering a similar plan with more or less the same advantage. Let’s take a look at how the prepaid plans from both these telcos fair against each other.TelcosTelcosBSNL Abhinandan-151 PlanBSNL Abhinandan-151 PlanReliance Jio Rs 149 PlanReliance Jio Rs 149 PlanTelcosData per dayBSNL Abhinandan-151 Plan1.5GBReliance Jio Rs 149 Plan1.5GBTelcosCallsBSNL Abhinandan-151 PlanUnlimitedReliance Jio Rs 149 PlanUnlimitedTelcosSMS per dayBSNL Abhinandan-151 Plan100Reliance Jio Rs 149 Plan100TelcosValidityBSNL Abhinandan-151 Plan24 daysReliance Jio Rs 149 Plan28 days SMS per day100100 Data per day1.5GB1.5GBlast_img read more

Looking for neutralinos at the Large Hadron Collider

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first_img“We are looking at the heavens, and using the very biggest things to help up predict what will happen with the very smallest things,” David Toback tells PhysOrg.com. Toback is a professor at Texas A&M University in College Station, and he believes that there is a way to combine cosmology and particle physics in a way that can help us learn more about the universe. Explore further Tracking down dark matter Citation: Looking for neutralinos at the Large Hadron Collider (2008, July 9) retrieved 18 August 2019 from https://phys.org/news/2008-07-neutralinos-large-hadron-collider.htmlcenter_img 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. “We’re interested in the dark matter question,” Toback continues. “Our current best guess is that the particles we know and love only make up about four percent of the stuff in the universe. Twenty-three percent of the universe is dark matter. The rest is dark energy. But I’m interested in dark matter, which should be made of particles. We want to know the properties of the bulk of the matter in the universe. This is a question that interests both cosmologists and particle physicists.”Toback and his colleagues at Texas A&M, Richard Arnowitt, Bhaskar Dutta, Alfredo Gurrola, Teruki Kamon and Abram Krislock, have been working on a model that allows them to use information obtained from the Large Hadron Collider (LHC) to predict the amount of dark matter left over from the beginning of the universe. Their work is published in Physical Review Letters: “Determining the Dark Matter Relic Density in the Minimal Supergravity Stau-Neutralino Coannihilation Region at the Large Hadron Collider.”“Our goal is to see whether our understanding of particles in the universe, the theory of supersymmetry, is correct. If it is, it will explain one of the most important questions in particle physics and cosmology in one fell swoop,” Toback says.Supersymmetry is a theory that predicts that all elementary particles with spin are paired to other particles whose spin differs by half a unit. “One of the things that makes it special,” Toback says, “is that supersymmetry is a theory that predicts new particles. And one of the particles predicted is called a neutralino.” Neutralinos are thought to be heavy and stable, and they represent the leading candidate to explain the amount of cold dark matter indirectly detected in the universe. The problem is that no one has been able to measure dark matter directly yet. This is where the LHC comes in. This $6 billion project is scheduled to begin operation later this summer, smashing protons into each other. The LHC is the largest and highest energy particle accelerator in the world, and Toback thinks that there’s a good chance that neutralinos could be produced from the collisions between protons. The data produced by the LHC will be made available to scientists around the world, including the team at Texas A&M.“If our results are correct we now know much better where to look for this dark matter particle at the LHC,” Toback explains. “We’ve used precision data from astronomy to calculate what it would look like at the LHC, and how quickly we should be able to discover and measure it.” He and his colleagues have even gone so far to be show that with their measurements with LHC data they would be able to predict the amount of dark matter in the universe. This could be compared to what is seen from the WMAP satellite. “If we get the same answer,” he continues, “that would give us enormous confidence that the supersymmetry model is correct. If nature shows this, it would be remarkable.”Toback says that the work he is doing with his peers at Texas A&M could make a connection between particle physics and cosmology. “If this works out, we could do real, honest to goodness cosmology at the LHC. And we’d be able to use cosmology to make particle physics predictions.”Copyright 2007 PhysOrg.com. All rights reserved. This material may not be published, broadcast, rewritten or redistributed in whole or part without the express written permission of PhysOrg.com.last_img read more