Over the last few days, there’s been some confusion about the future of Chrome OS and Chromebooks based on speculation that Chrome OS will be folded into Android. While we’ve been working on ways to bring together the best of both operating systems, there's no plan to phase out Chrome OS.
With the launch of Chrome OS six years ago, we set out to make computers better—faster, simpler and more secure—for everyone. We’ve since seen that vision come to life in classrooms, offices and homes around the world. In fact, every school day, 30,000 new Chromebooks are activated in U.S. classrooms—that’s more than all other education devices combined. And more than 2 million teachers and students in more than 150 countries have the Share to Classroom Chrome extension, which launched in September and gets students onto the same webpage, instantly. Meanwhile, companies such as Netflix, Sanmina, Starbucks and of course Google, are using Chromebooks given the ease of deployment, the ability to easily integrate with existing technologies, and a security model that protects users at all levels, from hardware to user data. (Chromebooks are so secure you don’t need antivirus software!) IT administrators can manage tens of thousands of Chromebooks through a single web console, making them ideal for both classrooms and the workplace.
For everyday use, we’re proud that Chromebooks are continually listed as a best-selling laptop computer on Amazon.com. In an effort to make computing even more accessible, earlier this year we introduced the first $149 Chromebook—a fast, affordable laptop. And in the next couple weeks the Asus Chromebit will be available—an $85 device that turns any display into a computer so you can replace your old desktop with an affordable computer the size of a candy bar, or let businesses transform a billboard into a smart digital sign.
This year we've also worked to redefine the different forms Chrome OS can take, introduced the first designated Chromebook for Work, and brought more of your favorite Android apps to your Chromebook via Apps Runtime on Chrome (a.k.a. ARC). But there’s more to do. We have plans to release even more features for Chrome OS, such as a new media player, a visual refresh based on Material Design, improved performance, and of course, a continued focus on security. With our regular six-week software cycle and guaranteed auto-updates for five years, Chromebooks keep getting better over time. Finally, stay on the lookout for dozens of new Chromebooks in 2016.
Editor's note: We’re jumping into our Delorean to explore how some of our favorite historical figures might have worked with Google Apps. Today, in honor of National Breast Cancer Awareness Month, we imagine how Marie Curie’s discovery of radioactivity, which won a Nobel Prize and revolutionized modern cancer treatment, might have played out in a Google Apps universe.
Consider what Marie Curie accomplished in the face of adversity and with few resources. Despite being refused a place at the French Academy of Sciences and almost denied her first Nobel Prize for being a woman, she continued her work undeterred, securing a second Nobel Prize in Chemistry and developing methods for treating cancer with radiation therapy. To celebrate her, we explore how she might have worked in a different time — by using some of the tools we use today.
The radioactivity in Curie’s lab was so strong that it harmed her health — archivists today still use protective gear to handle her papers. Instead of carrying these radioactive documents, Curie could have kept them in the cloud with Google Drive, allowing for easy access whenever and wherever she needed them, without risking her well-being. Drive’s organization features could also have helped her organize her files and notes in folders, easily distinguishable by color and category.
Her easy access to files would also be secure with Drive’s built-in security stack. And to prevent anyone from stealing her discoveries, Marie Curie could have conveniently protected all of her files using the Security Key for 2-step verification along with password protection. This would ensure that she was the only one who had complete access to all of her work (she may even have thrown on a screen protector to shield her work from spying eyes on the train). To share the right documents with only the right people, Marie could have used sharing controls to give different groups access to relevant research.
With the voice typing feature in Google Docs that supports 40 languages, she could have dictated her numerous notes in her native Polish without stopping her research. She could have then used Google Translate to convert her papers into other languages, so that the wider global science community could see what she was working on.
Curie could have used Gmail’s Priority Inbox to create labels and organize her messages related to research, teaching and fundraising. Each label filters emails into its own section in her inbox, making it easy to notice new emails when they arrive. She might have created a “Physicist Community” label for correspondences with Pierre and other influential scientists like Henri Becquerel and Albert Einstein. She might also have used a “Fundraising” label to organize messages from members of the press and government who funded her research, including U.S. presidents Warren G. Harding and Herbert Hoover.
Even Marie Curie could have been the victim of seemingly neverending reply-all email threads. With Gmail, she could have avoided these distractions by muting the message so responses are automatically archived. For example, Curie could have muted the message from her Sorbonne colleagues who abused “reply all” in RSVP emails or broke out into a physics debate, letting her focus on important emails only.
With Google Hangouts, Curie could have broadcast her physics classes to a global audience using Hangouts on Air. As the first woman professor at the Sorbonne in Paris, making her classes available online could have given more women access to lectures from a renowned physicist during a time when many universities wouldn’t admit female students. She might even have started her own grassroots movement, using live video chats to bring advanced science into the homes, coffee shops, underground classrooms, etc., of whoever chose to tune in.
Marie Curie accomplished award-winning work, even without access to the most advanced lab technology of the time. It’s humbling to consider that despite any limitations she encountered, Curie’s pioneering work in radioactivity remains so relevant today as we continue to make advances in not just physics and chemistry but also engineering, biology and medicine, including cancer research, on the basis of her discoveries.
Posted by Michael de la Cruz, Google for Education team
Editor's note: In this post, we’re sharing some of the great work that colleges and universities are doing with the help of Google for Education tools. To learn more about Google’s solutions for higher education, come visit us at EDUCAUSE – the largest higher education EdTech event in the US – October 27-30 in Indianapolis, at #1110 in the Expo Hall. We’ll be demoing the latest products with Googlers, administrators, professors and students giving short presentations throughout the week. And if you can’t attend EDUCAUSE, be sure to join our webinar with University of Texas at Austin on November 17th at 2pm EST / 11am PST.
Many higher education campuses are home to tens of thousands of students, thousands more staff, and dozens of buildings and academic departments — not to mention online learners. How do you create community and enable collaboration in academic settings that are the size of small cities, while making it easy for everyone on campus to learn and work together? Millions of students, teachers and administrators at colleges and universities around the world use Google Apps for Education to access their coursework from anywhere, communicate at any time, and share ideas for academic projects. In fact, the majority of U.S. News & World Report’s top 100 universities use Google Apps. Here’s how several major universities have brought professors, students and departments closer together.
Bringing Google’s best solutions to campus
Introducing new technology tools often means adoption delays and integration headaches. At schools like Georgetown University (case study), where Google is already the top choice of many students and faculty for email and collaboration, using Google Apps for Education for official school business was a painless transition.
The high awareness of Google Apps, and its seamless integration with other systems, was also a deciding factor at North Carolina State University (case study). “For the students, many of whom were already using Google, it really was a no-brainer,” says Sarah Noell, an assistant director in the school’s Office of Information Technology.
Schoolwide solutions unify large campuses
At the very largest universities, like the University of Michigan (case study) which has 43,000 students, separate schools and departments often choose their own email and collaboration tools — which means there’s no consistent way to share documents or manage email across the vast university community. With Google for Education, Michigan was able to unify all of its 19 schools under one collaborative solution. “When Google Apps for Education was introduced, there was a huge sigh of relief,” says Jeff Ringenberg, a faculty member in the Electrical Engineering and Computer Science department. “Previously, it was very difficult for students and professors to keep their information synchronized.”
Professors and students work anytime, anywhere
Not only do schoolwide collaboration and productivity tools unify campuses, they make it easy to tap into course syllabi, reading lists and progress reports from professors. At Brown University (case study), moving from Microsoft Exchange to Google Apps meant students no longer needed to carry their laptops around – they were able to choose any device on campus or pull out their mobile phones and immediately be productive. “All you need is a web browser,” says Geoffrey Greene, Brown’s director of IT support. “It doesn’t matter if you’re on your PC at home or on your Chromebook at work; you can do anything from any machine, anywhere.”
The students running Brown Market Shares, a food distribution program, use Google Drive to share meeting agendas and customer check-in sheets. “Using a Google Doc for our weekly meeting agendas, is useful because we can each add items to it before the meeting at any time of the day or night,” says Meagan Miller, an undergraduate student and Brown Market Shares’ communications coordinator.
Security and privacy help research and learning flourish
With anytime, anywhere access, students and teachers need assurance that their projects can only be accessed by their chosen colleagues. Brown decided to adopt Google for Education in part because the university needed to protect in-progress research while encouraging collaboration from the campus community. The University of Texas at Austin made a similar choice: “What happens in the classroom should stay in the classroom,” says Christy Tran, a student intern working in CIO Brad Englert's group. “Students can trust that they’ll have a safe learning experience.”
Better communication and feedback beyond the classroom
At UT Austin, home to 51,000 students, it’s not easy for professors to touch base with all of their students face-to-face. Google Apps lets feedback happen outside of class time or office hours. “I may only see students in class three hours a week, but we’re working together and editing classwork all the time, even on weekends,” says Angela Newell, a faculty member of UT Austin’s McCombs School of Business. “It allows us to move projects along much faster, and we can increase camaraderie with students.”
The University of Michigan’s Jeff Ringenberg collaborates with other teachers on his Electrical Engineering and Computer Science course syllabi and exams using Google Docs. “It eliminates the need to send thousands of versions back and forth,” he says. “We’ve streamlined the process of writing an exam, which frees me up to focus on communicating with students as opposed to generating content.”
There are many more stories about colleges and universities that are are re-thinking the ways they learn and work. If you’re in Indianapolis, we hope to see you in the EDUCAUSE Expo Hall at #1110. And if you can’t make it to the conference, be sure to join our webinar with University of Texas at Austin on November 17th at 2pm EST / 11am PST.
Posted by Cinthya Mohr, User Experience Lead, Google for Education
In a junior high class in Queens, New York, Ross Berman is teaching fractions. He wants to know whether his students are getting the key concept, so he posts a question in Google Classroom and instantly reviews their answers. It’s his favorite way to check for understanding before anyone has the chance to fall behind.
Across the country, in Bakersfield, California, Terri Parker Rodman is waiting at the dentist’s office. She wonders how her class is doing with their sub. With a few swipes on her phone, she finds out which students have finished their in-class assignment and sends a gentle reminder to those who haven’t.
Google Classroom launched last August, and now more than 10 million educators and students across the globe actively use it to teach and learn together, save time, and stay organized. We worked with teachers and students to create Classroom because they told us they needed a mission control – a central place for creating and tracking assignments, sharing ideas and resources, turning in completed work and exchanging feedback. Classroom is part of Google’s lineup of tools for education, which also includes the Google Apps for Education suite – now used by more than 50 million students, teachers and administrators around the world – and Chromebooks, the best-selling device in U.S. K-12 schools.
Here are a few of the stories we’ve heard from teachers and students who are using Classroom.
Learning better together
We built Classroom to help educators spend less time on paperwork and administrative tasks. But it’s also proven to be highly effective at bringing students and teachers closer together. In London, fifth grader Kamal Nsudoh-Parish stays connected with his Spanish teacher while he does his homework. “If I don’t understand something, I can ask him and he’d be able to answer rather than having to wait until my next Spanish lesson,” Kamal says.
Terri, who teaches sixth grade at Old River Elementary School, also observes that Classroom can strengthen ties and improve communication. “When a student doesn't turn something in, I can see how close they are,” she says. “In the past, I couldn't tell why they didn't finish their work. I was grading them on bringing back a piece of paper instead of what their ability was.”
Resource room teacher Diane Basanese of Black River Middle School in Chester, New Jersey, says that Classroom lets her see her students’ minds at work. “I’m in the moment with them,” she explains. “We have dialogue, like, ‘Oh, are you saying I should use a transition?’ We’re talking to each other. It’s a better way.”
Removing the mundane
By helping them cut down on busywork, Classroom empowers teachers to do even more with every school day. “I no longer waste time figuring out paper jams at the school photocopier,” says Tom Mullaney, who teaches in Efland, North Carolina. “Absent students no longer email or ask, ‘What did we do yesterday?’ These time savers may not sound like much, but they free me to spend time on things that I consider transcendent in my teaching practice.”
In Mexico City, teachers at Tec de Monterrey high school and university switched to Classroom from an online learning management system that often added complexity to their workflow instead of simplifying it. Professor Vicente Cubells says he’s found the new question feature in Classroom particularly useful for short quizzes, because he can quickly assess learning and have an automatic record of their responses and grades. “The Classroom mobile apps have also become essential for our faculty and students, we use them to stay connected even when we’re not in front of a laptop,” Cubells said.
Giving teachers superpowers
Teachers are some of the most innovative thinkers in the world, so it’s no surprise that they’ve used Classroom in ways we never even imagined.
Elementary school teacher Christopher Conant of Boise, Idaho, says his students are usually eager to leave school behind during summer break. But after using Classroom last year, they wanted to keep their class open as a way to stay in touch. “Classroom is a tool that keeps kids connected and learning as a community, well beyond the school day, school year and school walls,” said Christopher, who continued to post videos and questions for his students all summer long.
These endless possibilities are the reason why Diane Basanese, a 30-year teaching veteran, says that Classroom is the tool she’s been looking for throughout her career. “It has made me hungrier,” she explains. “I look at how I can make every lesson a hit-it-out-of-the-ballpark lesson.”
Growing our Classroom
Ever since we began working with teachers and students, it's been rewarding and encouraging to hear their stories, collaborate to find answers to their problems, and watch those solutions come to life at schools and universities around the world. Lucky for us, we’re just getting started.
Posted by Sophie Diao, Doodler, on behalf of the Doodle Team
Today we’re kicking off the 2015 Doodle 4 Google art competition, where creative and curious students across the U.S. vie to take over the Google homepage for a day with their artwork. This year’s theme, “What makes me…me,” invites students K-12 to express themselves in the form of a doodle highlighting what makes them unique.
But wait don’t get out those pencils just yet. This year, there’s a twist.
Doodle 4 Google is now in its eighth year (if Doodle 4 Google were a kid, it’d be a third grader)—so we decided to mix things up a bit to let kids’ imaginations really run wild. For the first time, there are no constraints on medium: students can cook, build, cut, spin, paint, or mold their doodle–basically use any material they like as long as they incorporate the letters G-O-O-G-L-E. The Doodle team itself has used a variety of unexpected materials over the years; for example, one Earth Day, we grew a bed of flowers to spell out the doodle. So we figured: let’s open the doors for all the creative kids out there do the same.
Here you can see how I decided to express “me”! I made my doodle out of clay, baked it in the oven, and painted it with acrylic paint. The succulent was taken from my garden. See more tips from my team of Doodlers on the Doodle 4 Google website.
We anticipate a whole lot of creative use of pottery, crochet, cookie dough and more by students (although of course we want all the drawings and paintings too!), so we figured we need some help picking out the winning artwork. We have an amazing group of guest judges: professional basketball player Stephen Curry, astronaut Dr. Yvonne Cagle, director and author BJ Novak, professional soccer player Alex Morgan, Emmy-award winner Julie Bowen and animator Glen Keane (more on the judges on our site).
Together, with the Doodle Team, we’ll pick one National Winner who will have their artwork displayed on the Google homepage for millions to see, receive $30,000 towards a college scholarship, and meet and work with the Doodle team on a visit to Mountain View, Calif. Plus, their school will get to spend $50,000 on technology.
Submissions are open until December 7. And for teachers, check out some classroom ideas and activities to get your young artists ready to Doodle!
Editor's note: Today’s guest author is Kayla Nalven, Content Specialist in Sesame Street’s U.S. Social Impact department. Through her work, Kayla aims to support the many adults in children's lives in their use of Sesame Street content and resources. She managed the content development for the “Make Believe with Math” course.
To date, more than 5,000 early childhood educators have enrolled in a free online course from Sesame Street, “Make Believe with Math”, created through Google’s Course Builder platform. The course - which will run through October 31st - emphasizes finding everyday opportunities for math in any setting and seeing pretend play as a tool for math learning.
This self-paced, three-hour experience includes videos featuring Sesame staff members, short activity challenges, discussion boards for reflection, and access to new content, so educators can bring activity ideas and strategies into their own settings.
Built with Google’s Course Builder platform, the course was a natural extension of Sesame’s legacy as the “first Massive Open Online Course (MOOC),” according to a recent study by the National Bureau of Economic Research. Course Builder gave us a way to continue this work more literally by creating a modern online course with a goal of reaching thousands with no cost to the user; furry monsters and giggles included.
Although creating virtual classroom experiences for adults is an area we’re growing into, the process guiding us is a familiar one—in essence, it’s no different than the method behind making an episode of Sesame Street.
Our team at Sesame Street started with a goal and a concept. We wanted to make the task of incorporating math into the early childhood setting less intimidating for educators by highlighting opportunities that exist to “find the math” in everyday moments and interactions. Research describing the benefits of combining math―which relies on language as well as object/people relationships―with a highly social activity like pretend play inspired the approach featured in the course.
Next, we engaged our end users. We asked expert teachers to provide guidance on how to present information to fellow educators in a way that would add value and adhere to the standards they must follow. We developed the course curriculum based on their feedback and the Sesame Street Framework for School Readiness (which aligns with National Head Start and National Research Council math standards).
We then tested our ideas in a formal research setting. We held a focus group with educators and program directors, and heard from them that the course needed to look and feel like Professional Development―except “Muppetized”.
To ensure what we were offering felt unique, we focused on providing actionable tips and strategies that could be used by educators right away. We worked to streamline the course format and include relatable imagery and additional, single-page resources, all based on what educators told us they wanted to see and experience.
We then held a pilot offering in August, and monitored closely to ensure educators were completing activities successfully and finding value in every aspect of the course.
After the pilot, we knew there was still more work to be done. We followed up with participants and listened closely to their feedback. The data from the first launch was promising. We saw an above-average percentage of course completion, and educators told us there was a strong likelihood that they would implement strategies offered in the course in their own settings.
Finally, we set our sights on iterating. For the current offering, we applied what we learned from rich Course Builder analytics and survey data to continue making this online learning experience worthwhile for educators. We also partnered with multiple states to offer credit/contact hours to educators in those states who complete the course.
We hope to continue learning from our users so we can offer more free trainings directed at educators, parents, and community providers―and continue doing what we do best: reaching learners wherever they are. Course Builder was a natural platform to enable us to do just that.
So get your thinking caps and imaginations ready, and join us in class! Register now at www.sesamestreet.org/makebelievewithmath. The course will run through October 31st, so don’t wait until the “number of the day” is 0.
At the Bronx Latin School in New York City, teacher Katrina Roman says the topic of ancient history doesn’t usually set students abuzz. But this week, they took a field trip to ancient Aztec ruins using Google Expeditions, a virtual reality teaching tool built with Google Cardboard. Normally, their assignment would involve poring over photocopied photographs, but instead, they stood at the top of Chichen Itza, then examined detailed carvings at Tenochtitlan. Amid “oohs” and “aahhs,” the students shouted out details they noticed and shot hands up to answer Ms. Roman’s questions.
Katrina Roman's class at the Bronx Latin School fills out their assignment after visiting Aztec ruins with Expeditions. The class is part of a history and geography pilot with New Visions for Public Schools.
Starting today, we’re bringing this experience to thousands of schools around the world with the new Expeditions Pioneer Program. During the 2015/2016 school year, we’ll be bringing “kits” containing everything a teacher needs to run a virtual trip for their class: ASUS smartphones, a tablet for the teacher to direct the tour, a router that allows Expeditions to run without an Internet connection, and Google Cardboard viewers or Mattel View-Masters that turn phones into virtual reality headsets. Although nothing replaces hopping on the bus for a field trip, there are some places that are just out of reach (hello, Chichen Itza!). Virtual reality gives teachers a tool to take students places a school bus can't.
To help teachers learn how to use Expeditions, we’ll be visiting thousands of schools around the world and bringing the kit for teachers to use in their classes for the day. Up first: Australia, Brazil, New Zealand, the U.K. and the U.S., followed by more locations as the school year progresses. At each school, our team will show teachers how Expeditions works and help set it up before class.
Right now, teachers can choose from a library of 100+ virtual trips to places like Mars, the Great Barrier Reef and the Great Wall of China. But we’re constantly adding more trips with the help of partners like PBS, educational publisher Houghton Mifflin Harcourt, British documentarian David Attenborough and his production company Alchemy VR, and the Wildlife Conservation Society. We’re also working with The Starfish Foundation to help students explore future careers by showing them a virtual day in the life of professionals including a veterinarian and computer scientist. And to help students achieve those career goals, we’re working with First Lady Michelle Obama to support her Reach Higher initiative by taking students on virtual college tours.
And if you see one of these cars on the road, that's us! The folks at Subaru, who invest in education as part of their Love Promise initiative, have created a fleet of Expedition Pioneer Program rides that we'll be using to bring kits to schools.
If visiting Mars, trekking on the Great Wall of China or exploring what it’s like to work at a veterinarian’s office sounds like something your class would be interested in, head to the Expeditions Pioneer Program site and sign up.
Editor's note:Mariette DiChristina is the Editor in Chief and senior vice president of Scientific American—the first woman to hold the role in the magazine's 170-year history. She has been a Fellow of the American Association for the Advancement of Science since 2011 and served as president of the National Association of Science Writers in 2009 and 2010. She joins us here today to share her perspective on the Google Science Fair, which is in its fifth edition this year.
This marks my fifth year with the Google Science Fair. In October 2010, when I had my first conversations with my friends at Google about their idea to create a global online science fair that any kid 13–18 could participate in, I thought it sounded pretty cool. But I couldn’t then imagine just how inspiring and powerful such a competition would turn out to be in reality.
At the time, I hadn’t even been editor in chief of Scientific American for a year, but I had real ambitions to try to do something to make a difference in educating our young people about science. You see, I believe that science is the engine of human prosperity—it’s the way we grapple with some of the world’s most challenging problems, from cures for diseases to living sustainably in a finite world. So I’ve always seen the idea of fostering evidence-based thinking in our next generation of global citizens as vital.
Now, five years later and working with partners LEGO Education, National Geographic and Virgin Galactic, the Google Science Fair has an impressive track record of enabling our world’s young scientists to shine. Over the years, they’ve tackled serious issues, like world hunger and the energy crisis. Their projects have worked on how to diagnose and treat diseases like cancer and Alzheimer’s. They’ve engineered flashlights powered by their hands and plastics made of banana peels. And to date, the fair has provided almost $1 million in scholarships, and sent four grand prize winners on trips around the world to further their scientific passions.
Tonight we added some new winners to that list as we recognized and celebrated the 2015 top 20 finalist projects and the bright young scientists behind them:
The Grand Prize went to Olivia Hallisey for creating a novel way to detect Ebola.
Girish Kumar won the Google Technologist Award for helping improve learning through auto-generated study questions.
The National Geographic Explorer Award went to Deepika Kurup for her idea to use solar-powered silver to create clean drinking water.
Krtin Nithiyanadam’s project focused on improved diagnosis and treatment of Alzheimer’s Disease and won him the Scientific American Innovator Award.
Pranav Sivakumar's automated search for gravitationally lensed quasars earned him the Virgin Galactic Pioneer Award.
Anurudh Ganesan took home The LEGO Education Builder Award for his unique twist on effectively transporting vaccines.
In all of these finalists and the thousands of submissions from students in 100+ countries, we see something common. These students are inventive, thoughtful, and determined to help make the world a better place. All they need is a chance and a platform to do so. And, unlike some of us adults, they are ready to try things that other people think are “impossible.” I find them inspiring.
It’s imperative for us to support and encourage our young people to explore and challenge the world around them through scientific discovery. So we’re especially glad that Ahmed Mohamed—the 14-year-old clock maker from Texas—took us up on our invite to attend this year’s event. Curious young scientists, inventors and builders like him should be encouraged and empowered.
The past decades have brought tremendous innovations and challenges, and none of us knows what the future of scientific discovery holds. But I can tell you one thing: it’s going to be better thanks to these kids. They will be part of building a brighter future for us all—and as they do, those of us at Scientific American, Google, LEGO Education, National Geographic and Virgin Galactic will be cheering them on.
Posted by Guy Shearer, Head of IT at the David Ross Education Trust
Editor's note: Today’s post comes from Guy Shearer, Head of IT at the David Ross Education Trust (DRET), a UK-registered charity that supports primary and secondary school students in achieving a high standard of academics.
How do you scale IT with limited resources when your organisation triples in size? We faced this challenge at David Ross Education Trust (DRET), where we manage a network of primary and secondary academies across the Midlands and East of England. We grew from seven schools in 2012 to 30 schools in 2014, and had to find a way to bring our 9,000 students more access to technology.
While we had a great many computer labs with desktops, we didn’t see this as a sustainable solution. Much of our time was dedicated to managing systems and installing software updates, fixing computers or teaching people how to use them. We wanted to make technology easier to manage for IT and a more natural part of classroom life rather than isolated in computer labs.
After hearing about Google Apps for Education and Chromebooks, we set up pilot programmes at interested schools and saw students pick up the technology almost immediately. Some brave students even start leading training sessions for their teachers. So far, we’ve deployed 3,000 Apps accounts and 500 Chromebooks at 13 schools, and plan to double this by the end of the year.
The cost savings have helped us expand access to digital learning across our schools. We can buy and manage twice as many Chromebooks as we can desktops or iPads. The £11,000 ($18,137) we used to spend for a single computer lab has been cut in half. Chromebooks are also lightweight, quick to boot up and easy to use, so we’ve been able to bring the devices into classrooms and repurpose the space our old computer labs once occupied.
Students hard at work
The simplicity of managing Google Apps and Chromebooks allows our IT team to focus on new programs rather than setting up and troubleshooting technology. With the Web-based management console, we can remotely manage every Google Apps account and get detailed reports on how they’re being used. We never have to worry about installing software updates either, they just happen automatically.
With less lost time, we are able to focus on things that add value and improve the impact of our investment. For example, we were able to set up a programme called Digital Leaders that empowers students to train their peers and teachers in Google Apps for Education. The students come up with new ways to use technology that inspire us as educators. In the classroom, Apps and Chromebooks help students learn how to work in groups effectively, create blogs, present their work via Hangouts, and provide feedback through comments in Docs. Google Apps and Chromebooks have helped create a sense of community at DRET while quickly scaling an engaging platform that students and teachers love.
Editor's note: We're celebrating this year's impressive 20 Google Science Fair finalist projects over 20 days in our Spotlight on a Young Scientist series. Learn more about each of these inspiring young people and hear what inspires them in their own words.
Lalita was inspired to find a use for corn cobs, unused agricultural waste, during a conversation with a tribal farmer in a nearby village. Considering the prominence of water pollution in her country, she decided to use the cobs to improve water quality and ultimately provide access to healthier drinking water. She tested several different methods and found that corn cobs can absorb chemicals, detergents and other pollutants directly from the water. Lalita’s project goal is to provide more clean water for nearby villages.
What was the inspiration behind your project?
When I was in nursery school, I dressed up as a corn cob and won the prize for the Fancy Dress Competition. Since then, corn has been one of my favourite vegetables. I love roasted, grilled or steamed corn ears, and roasted corn on the cobs is a popular street food in India. Interestingly, all the parts of the corn plant except the actual cobs are useful. I’ve wondered for a long time how to make use of corn cobs. One day I made a hole at the centre of a cob using a screwdriver. Then I poured some dirty water inside the hole and collected the extract from the other end. Surprisingly, the collected extract was devoid of all the suspended particles. This inspired me to search, examine and experiment whether we could clean wastewater by using corn cobs. This could reduce waste by using another form of waste. Luckily, I was supported by my mentor to plan the project in detail and encouraged to participate in this year's Google Science Fair.
Lalita's interest in corn started from an early age
When and why did you become interested in science?
I am the privileged eldest daughter of my father, who’s a science teacher. Very often he used to take me to the chemistry lab so that I could perform experiments with his students. My frequent visits to the lab packed with variously coloured chemicals attracted my attention since childhood. In my home, I learned how to get around the kitchen from my mother. To me, mixing, soaking, roasting, grinding and baking different ingredients of right proportion to get maximum taste, flavour, energy and above all satisfaction is based more on science than art. Both of my parents ignited my interest in science from a young age.
What words of advice would you share with other young scientists?
Always observe your surroundings keenly. You never know what scientific breakthrough you may stumble upon.
School’s in! As you settle into your classes and start to juggle soccer practice, club meetings and homework, we’re here to help. We’ve been spending the summer “break” creating new tools to help you save time, collaborate with classmates and create your best work—all for free.
Schoolwork, minus the work
Writing papers is now a lot easier with the Research tool in Docs for Android. You can search Google without leaving Docs, and once you find the quotes, facts or images you’re looking for, you can add them to your document with just a couple taps. That means less time switching between apps, and more time perfecting your thesis statement.
With Voice typing, you can record ideas or even compose an entire essay without touching your keyboard. To get started, activate Voice typing in the Tools menu when you're using Docs in Chrome. Then, when you’re on the go, just tap the microphone button on your phone’s keyboard and speak your mind. Voice typing is available in more than 40 languages, so we can help with your French homework, too. Voilà!
Do more, together
We’ve made it easier for you to tell what was added or deleted in Docs—and who made the changes. Now when you’ve left a document and you come back to it later, you can just click “See new changes” to pick up right where your classmates left off.
Forms helps you get a lot of information easily and in one place—so when you want to vote on your class field trip or collect T-shirt sizes for your team, you don’t have to sort through dozens of emails. With the new Forms, you can survey with style—choose one of the colorful new themes or customize your form with your own photo or logo, and we’ll choose the right color palette to match. Easily insert images, GIFs or videos and pick from a selection of question formats. Then send out your survey and watch as the responses roll in!
Your best work, your best you
Creating presentations, crafting newsletters and managing your team’s budget is hard enough without having to worry about making everything look good. With the new collection of templates in Docs, Sheets and Slides, you can focus on your content while we make sure it gets the expert polish it deserves. Choose from a wide variety of reports, portfolios, resumes and other pre-made templates designed to make your work that much better, and your life that much easier.
With Explore in Sheets, you can now spend less time trying to decipher your data, and more time making a point. Explore creates charts and insights automatically, so you can visualize trends and understand your data in seconds on the web or on your Android. It’s like having an expert analyst right by your side.
Mission control, for teachers and students
A year ago, we launched Classroom to save teachers and students time and make it easier to keep classwork organized. Today we’re launching a Share to Classroom Chrome extension to make it easy for teachers to share a website with the entire class at the same time—no matter what kind of laptop students have. Now the whole class can head to a web page together, without losing precious minutes and focus to typos.
Rock this school year with Google Docs and Classroom. Your first assignment? Try these new features, which are rolling out today.
Posted by Catherine Davis, former 4th grade teacher and Director of Academic Technology at Pilgrim School
Editor's note:Today we’re launching a new Chrome extension, Share to Classroom, which solves a big pain point for teachers: getting all students to the same website during class. The Share to Classroom extension works on any laptop, including Chromebooks, Macs and PCs. Catherine Davis, former 4th grade teacher and Director of Academic Technology at Pilgrim School, piloted the Classroom extension with Mrs. Shorkey’s 3rd grade class, and here she describes her experience using this new extension and the impact on her students.
Sharing a website with my students is a great way to get them engaged. When we studied South America, I shared a video of Tierra del Fuego, and my students were able to view the coast, hear the wind and see the waves soar. But getting a class full of 4th graders on the same web page is a huge challenge. I typically write the URL on the board, then walk around to help each student who misses a capital or underscore or backslash. My students get frustrated, I get frustrated, and before I know it 10 minutes of precious teaching time is lost.
So I was thrilled to pilot the Share to Classroom extension. With the extension I can open a website and “push” it to my Google Classroom students, so the page opens immediately on all their devices. Our 3rd graders gasped when we tried it – the webpage instantaneously popped up on all of their screens.
The new extension lets me engage my students and help them drive their own learning on 1:1 devices at our school. When our 3rd graders were studying Native American culture, I pushed a website to the class so they could research traditional clothing and food. The students aren’t locked to the page I send, and one student navigated from there to an even better site. With the Classroom extension, the student was able to push the new site to me, and I reviewed and pushed to the entire class. She had a boost of confidence when her discovery drove class discussion.
Using the extension also lets me think on my feet. When discussing pioneers, a brave student raised his hand and asked “What’s a stage coach?” I realized my students hadn’t been exposed to the term. I immediately pulled up a definition and video and pushed it to the class. I also saved the webpage as a draft to post to my other Classroom students later. I could have projected on a screen, but the intimacy of having the webpage on each device allows students to explore on their own, hear clearly and watch repeatedly. It also levels the playing field for ELL and students of different backgrounds so everyone starts literally on the same page.
As teachers, we never feel we have enough time to do everything we want with our students. The new Share to Classroom extension gives us back those few minutes it takes to get students to the same place and makes learning about investigating, not about navigating.
*Note: Google Apps admins can install the extension for their entire domain so that it’s easiest for teachers and students to get started. Teachers and students both need the extension in order to push web pages to each other.
Editor's note: We're celebrating this year's impressive 20 Google Science Fair finalist projects over 20 days in our Spotlight on a Young Scientist series. Learn more about each of these inspiring young people and hear what inspires them in their own words.
While volunteering in a senior care facility, Anika was shocked to learn how many older adults suffer from Alzheimer's disease. Her curiosity led her to learn more about diagnosis of this disease, and she found that without a standard test or method for diagnosis, most doctors rely on their own opinions. She decided to create a tool that quickly and accurately diagnosed Alzheimer's and knew her brother, who loved science and coding, would be able to help her. By extracting image features from MRI scans, Anika built an interface for doctors to upload an image, enter some basic patient information and get a reliable Alzheimer's diagnosis.
What was the inspiration behind your project?
5.3 million Americans are currently living with Alzheimer’s. The disease has killed my great-aunt, hurting my entire family. At the senior home I volunteered at, I met the victims of this illness. With Alzheimer’s everywhere around me, I wanted to make a difference and ease the lives of patients and their loved ones. I found that the majority of patients with Alzheimer’s are not aware of their disease, and therefore don’t get the proper care or treatment. This inspired me to build a tool that gives patients an early and accurate diagnosis of Alzheimer's.
I was also inspired by research carried out by other researchers as part of the SDSS Quasar Lens Search (SQLS). Using an earlier version of the data set I utilized in this project, the SQLS researchers significantly increased the number of known lensed quasars. The success of the SQLS approach inspired me to develop my own method for identifying lensed quasars.
When and why did you become interested in science?
My brother and I were eating dinner when he asked me the question that would change my life: how does gravity work? I didn’t know the answer, so he made me run around the galaxy (our house) and find space-time (a sheet), a planet (a big ball) and two meteors (small marbles). He stretched out the sheet and balanced the two marbles on the ends of it. Then he made me put the big ball at the center of the sheet. The big ball pushed down on the sheet, and as the smaller marbles rolled down the sheet towards the big ball, I felt omniscient.
I took the materials to school the next day, and explained how gravity works to most of 4th grade. I learned two things from this: One, teaching other people, in a simple way, how complicated matters work makes me look really smart. And two, people actually feel the same wonder and amazement I feel when I learn something new.
This might have been the experience that led me to teach later on in life. This might have been the experience that led me to keep a jar of marbles on my desk. But this was, for certain, the experience that made me question anything and everything in the universe. It was as if the big ball formed an indentation in my head, making the marbles and the tissue (the neurons and the blood) stop in their tracks and start rolling down towards the answers.
What words of advice would you share with other young scientists?
We now live in an age where the learning process takes minutes. We get easy access to research papers, free courses and a myriad of other resources. When I started this project, I had only a basic understanding of programming and no idea what neural networks were, but from learning from the hard work of other researchers and teachers, I was able to build my tool. What I took from this project, and what people should always remember is that you can stand on the shoulders of giants when you want to touch the stars.
Editor's note: We're celebrating this year's impressive 20 Google Science Fair finalist projects over 20 days in our Spotlight on a Young Scientist series. Learn more about each of these inspiring young people and hear what inspires them in their own words.
Pranav’s shown interest in astronomy since looking up at the night sky at age 4. He later became interested in physics and worked in a lab focused on quasar research. Certain quasars (massive and extremely remote celestial objects, emitting exceptionally large amounts of energy ) cause an effect called gravitational lensing, which magnifies the light of distant galaxies that would otherwise be too faint to see. Compiling existing data from over 450,000 quasars, Pranav developed two algorithms to automatically find gravitationally lensed quasars and improve the accuracy and reliability of candidates identified for follow-up observations. Pranav’s most excited that his project and results might confirm the expansion of the universe, helping us determine our eventual fate.
What was the inspiration behind your project?
When I attended lectures at Fermi National Accelerator Laboratory, I repeatedly heard the phrases “dark matter,” “dark energy” and “future of the universe.” Curious by nature, I asked questions about these topics and eventually learned that very little is known about these two phenomena; in fact, the term “dark” literally describes our limited knowledge of them. I learned that gravitational lensing, which is caused by massive astronomical objects bending light and which results in multiple images of an astronomical light source, is an effective way to study these constituents of the universe. In particular, studying gravitational lensing of quasars, some of the brightest and most distant objects in the universe, may hold the key to understanding our future.
I was also inspired by research carried out by other researchers as part of the SDSS Quasar Lens Search (SQLS). Using an earlier version of the data set I utilized in this project, the SQLS researchers significantly increased the number of known lensed quasars. The success of the SQLS approach inspired me to develop my own method for identifying lensed quasars.
When and why did you become interested in science?
In the age of the Internet, it’s perhaps ironic that my interest in science started with a book. At the age of seven, I found a book called “Great Physicists” in my house; I picked up the book and found it fascinating.
As my interest in physics grew, I began reading books more focused on astrophysics and cosmology by Michio Kaku. When you see a book at the library titled “Physics of the Impossible,” it’s difficult to ignore!
The lectures at Fermilab were formative in crystallizing my interest in science. Though I understood only one or two words of the science being discussed in the talks, what stayed with me was the energy and excitement of scientists challenging each other in the room.
Science feeds my curiosity by allowing me to ask complex questions, challenge assumptions and explore interesting topics without worrying about assignments or tests. It’s like a jigsaw puzzle; there’s a great amount of satisfaction when the pieces start fitting together.
The “Aha” moment is priceless – just ask Archimedes!
What words of advice would you share with other young scientists?
I learned from experience that starting small and building up to complex questions works best for young scientists. Feel confident about connecting with professionals – initially, it may be scary, but their willingness to help and their mentorship are worth much more than those few moments of anxiety.
When I ran into a technical roadblock, I contacted the primary researcher on the SQLS team in Japan; within 24 hours, he responded with valuable suggestions that I’m still pursuing to this day.
Editor's note: We're celebrating this year's impressive 20 Google Science Fair finalist projects over 20 days in our Spotlight on a Young Scientist series. Learn more about each of these inspiring young people and hear what inspires them in their own words.
Alexey had always been a computer science fan, but it was fixing a computer that really sparked his curiosity. He wondered why all modern day computers ran on binary logic, and if there might be a benefit to using ternary logic. Once he found out that a vintage USSR computer did, in fact, rely on ternary logic, he knew he wanted to test this logic on current electronics. Alexey’s model successfully used ternary logic, and he’s excited to create new ternary logic elements for integrated circuits and computer systems.
What was the inspiration behind your project?
I was inspired by the old Soviet project called "Setun."
When and why did you become interested in science?
All my life I was interested in engineering. I was very interested in the structure of different devices and desired to create. This is what pushed me to study technologies.
What words of advice would you share with other young scientists?
It's not enough to just discover something new. You need to make it useful for mankind. Good luck!
Editor's note: We're celebrating this year's impressive 20 Google Science Fair finalist projects over 20 days in our Spotlight on a Young Scientist series. Learn more about each of these inspiring young people and hear what inspires them in their own words.
Eliott loved the idea of gardens, but not the time commitment needed to tend them. He wondered whether he could apply his knowledge and passion for video games and video programming towards growing vegetables. With help from his father, he built a rolling robot controlled by a smartphone app he created. Since the manufactured Bot2Karot can use its manufactured arms and tool holders to hoe, water and transplant, Elliot’s extremely excited about the possibilities with his own robot. He believes he can broaden his initial aim to help people with limited mobility and access.
What was the inspiration behind your project?
People I know spend a lot of time on gardening simulators (games). On the other hand, my family’s actual garden requires a lot of real work and attention. After careful observation, I wondered whether I could mix the idea of the gardening game with the fun of having real vegetables to eat. What if we could create a robot to take on cumbersome gardening tasks using our smartphones, so that gardening becomes a smartphone game?
When and why did you become interested in science?
When I was quite young, I spent a lot of time in my father’s small workshop. I also liked to play Legos, and with this experience, I could dig into subjects like mechanics and physics. Three years ago, together with friends, I created a computer science club and a robotic club at my high school. That’s where I learned how to program. At home, I created small robots and robotic arms, which became the real inspiration for my project.
What words of advice would you share with other young scientists?
First of all, be curious! That’s how you come up with ideas. Seek solutions and always ask yourself how to improve on them. Once you have found your idea, do some research, persevere, investigate other solutions and keep optimizing your solution.
Editor's note: We're celebrating this year's impressive 20 Google Science Fair finalist projects over 20 days in our Spotlight on a Young Scientist series. Learn more about each of these inspiring young people and hear what inspires them in their own words.
Calvin once saw a camping trick that transformed air into water. The power of that simple trick stuck with him, and then he realized it just might save lives. He decided to use that model to help provide safe drinking water to the billions around the world with limited access to clean water. Without a lab, Calvin built a model at home (powered by the sun) to extract water from the air without external energy or mechanical assistance. Calvin was extremely excited to see that his condensation model produced water for 12.5 hours per night. He looks forward to the impact his model could make for those in need of our most necessary natural resource.
What was the inspiration behind your project?
When deciding on my first science fair project, my main focus was to address a significant global challenge. I chose the global water crisis as my subject after learning that over 1 billion people lack access to sufficient clean water. I was also shocked that a child dies every minute from a water-related disease and that in some areas of the world women spend up to twelve hours a day walking to obtain water. I decided to try to create devices that could produce potable water from the atmosphere at low cost to improve water access for some of these people. Around that time, an earthquake struck Haiti, and I remember thinking that the devices I was developing, which did not require infrastructure, could also be useful in this type of disaster situation. In the majority of water shortages, those most affected are those who are impoverished and cannot afford water production systems with running costs. In addition, frequently these people live in areas without infrastructure. I also decided that any system I would create would have to have no negative impact on the environment, as I didn’t want to create new problems while solving an old one. For these reasons, I decided that the devices had to operate without an electrical power source or infrastructure. Finally, while my devices were attempting to address the problem of water scarcity, millions only have access to contaminated water, and 2.5 billion people live in areas with inadequate sanitation. I also wanted to address this huge problem, again without electrical assistance or a requirement for infrastructure. For this reason, I developed an efficient, new solar still which uses solar energy to convert contaminated water into potable water.
When and why did you become interested in science?
I have always been interested in how things work, in constructing new things. From a young age, I loved kids’ science shows. When I was 6 years old, I became fascinated with marine biology, starting with sharks, and I’m still very passionate about this subject. In Grade 7, our school held a science fair that I found success in, and this experience motivated me to continually improve my work and participate in several successive science fairs. My interest and passion for science continues to increase with each fair that I participate in. I consider these amazing opportunities to learn and explore.
What words of advice would you share with other young scientists?
Work hard and persist, because when researching, things rarely happen overnight. So you get what you put into it. Also, don’t be afraid to think big and take on problems that seem beyond your ability to solve, because often small ideas can lead to significant new solutions. Finally, never become disheartened by failure or problems that arise in your work, as it’s all part of the process.
Editor's note: We're celebrating this year's impressive 20 Google Science Fair finalist projects over 20 days in our Spotlight on a Young Scientist series. Learn more about each of these inspiring young people and hear what inspires them in their own words.
Olivia was shocked to learn about the Ebola epidemic spreading through Africa. She wondered how to get treatment delivered faster to the people that needed it and recalled her science lesson about silk storage.
With it’s stabilizing properties, could silk allow Ebola antibodies to travel much longer without the need for refrigeration? After a few attempts, Olivia created the Ebola Assay card – her new antibody storage system that can be designed in 30 minutes anywhere in the world and can transport vaccines/antibodies for Ebola, HIV and other diseases for up to one week.
What was the inspiration behind your project?
My decision to focus my project on the development of a novel temperature-independent, rapid, portable and inexpensive diagnostic test for the detection of the Ebola virus, was prompted by the devastating loss of life in Africa during the most recent 2014 Ebola outbreak. The consequences will be far-reaching with valuable applicability as an ELISA-based diagnostic for other diseases, including HIV, lyme disease, yellow fever, dengue fever and certain cancers. The concentration of fatalities in Ebola stricken areas has left many children orphaned, and the socioeconomic fabric of entire villages destroyed. School closures have impacted over five million children, risking permanent educational dislocation and high risk behaviors such as child labor. Early diagnosis and proper medical care are critical to containing and eliminating the spread of Ebola and any other contagious illnesses.
When and why did you become interested in science?
I became interested in science as a young child because of my late grandfather, a doctor and medical researcher. He showed me the power of science and research to make new discoveries that could lead to breakthroughs that could give back hope and transform futures. He was passionate about science and medicine and cared deeply that his work would contribute towards a greater understanding and a cure for diseases such as Cystic Fibrosis and Alzheimers. I hope to be a doctor like my grandfather, and one day work for a global health organization, such as Doctors Without Borders.
What words of advice would you share with other young scientists?
Think globally. Reconsider existing solutions and always ask “Why not?” Don’t think that everything that can be done has been done. There’s always room for innovation and creative reconsideration. Everyone has a role in change.
The tradition of ringing in each New Year with resolutions (whether we stick to them or not) is always an opportunity to reflect and start the year ahead on the right foot. As students and teachers around the world return to campuses and classrooms this fall, we’re embarking on a different kind of fresh start: a New (School) Year. And we want to help you make the most of it. So we’ve put together a few resolution ideas, plus tips to help you stick to them. We’ve also made a resolution of our own: to bring the best of Google technology to education.
The best of Google, for education
Like many resolutions, ours might sound familiar—and that’s because the Google for Education team has been working on it for a while. Over the last few years, we’ve spent a lot of time with teachers and students, witnessing firsthand how technology is helping in the classroom and learning about challenges that are yet unsolved. With feedback from schools, we’ve improved products like Google Apps for Education and Docs, building in new features specifically useful for education. We’ve also created new learning experiences like Google Classroom—a sort of mission control for teachers and students, offering a single place to keep track of all class materials, eliminating paperwork and making it easy for teachers to collaborate with students, and students to collaborate with each other.
So as part of our resolution this school year, we’re launching some new features in Google Classroom. Teachers can now easily ask students questions in Classroom, alongside all the other class materials in the stream. Teachers also told us that they want more ways for students to engage with each other, and flex their critical thinking muscles. So now students can comment on each other’s answers in Classroom and have open-ended discussions. In the next month, we'll also make it possible for teachers to add assignments, due dates and field trips to a shared calendar.
So what’s your resolution?
We’re sure you’ve already set some big goals for the year ahead—from acing AP Bio to landing that killer internship. Whatever your plans, it can be tough to stick with those goals once assignments and social commitments start to pile up. So we’ve collected 50+ tips from more than 15 Google products to help you follow through with your resolutions. Here are some ideas:
Resolution 1. Get (and stay) organized
When you’re bogged down by clutter, it can be tough to get stuff done. Make this your year to be more organized. Never miss another study group with help from Google Calendar. Use Google Sheets to keep all your classmates' info in one place, and better manage your inbox by emailing everyone at once with a Google group. Resolution 2. Get (mentally) fit
Push yourself to take your studies to the next level. Teach yourself how to code with Made with Code. Make the most of language class by saving your most used words and phrases with Google Translate or magically translating webpages with Google Chrome. Resolution 3. Get some worldly perspective
Not studying abroad this year? No problem. You can still unleash your inner explorer with Google Maps Treks and visit the Pyramids of Giza or the Great Barrier Reef without leaving your room. Or bring your art history class to life by seeing those masterpieces up close and in perfect detail with Cultural Institute.
We hope these give you new ideas for how you can make this school year your best yet. Over the next few weeks, we’ll be announcing more tips and other updates—so follow along with #GoogleEdu and on Google+. We’ll be doing our homework to stick to our resolution, so we can hopefully give you what you need to do the same. Now go hit those books!
