In a world always changing with new scientific discoveries, it’s key to help the next group of problem-solvers and innovators.1 Under Armour, a big name in sports gear, is leading the way in this. They team up with others and make efforts to get young people interested in science, technology, engineering, and math (STEM).
Under Armour believes in the big difference that learning by doing and having a mentor can make.1 They give top-notch gear to star athletes like AJ. They support these athletes and show their support with creative AI sports ads, like ‘Forever Is Made Now’.
But, Under Armour is not just about sports.1 They’ve helped fix up 12 basketball courts at DREAM Charter School in New York City. This shows their dedication to making places where kids feel safe and can succeed.1 They also made a special collection to honor women in sports and science for Women’s History Month, helping future women in STEM.
Looking to the future, Under Armour has big dreams.1 They want to reach 100,000 kids and make 20 safe play areas by 2025. They have leaders working hard, like Kevin Plank and Kevin Ross. These leaders are introducing new ideas all the time, like NEOLAST™, a special fabric made for stretching in clothes, with the help of Celanese.
Key Takeaways
- Under Armour is dedicated to helping young scientists with hands-on learning and mentorship.
- They’ve upgraded schools and started special projects to support female athletes and thinkers in STEM.
- Their big plans include reaching 100,000 kids and building 20 safe play areas by 2025.
- Their top team is driving new ideas, like the NEOLAST™ fiber for more flexible clothes.
- Under Armour’s full way of supporting young brains matches their goal to grow scientific interest and help the next generation of solvers.
Nurturing Young Minds through STEM Education
In today’s fast-changing world, STEM (Science, Technology, Engineering, and Mathematics) education is key. The National Education Policy (2020) highlights the importance of STEM. It focuses on hands-on learning and skill building for our future challenges.2
Unlocking Potential with Hands-on Science Learning
Technology has changed the way we learn STEM, making it exciting for kids. It has boosted student interest by 53% and made them better at thinking critically by 48%.3 Using virtual labs and interactive tools, teachers help students get hands-on with science. This approach brings the beauty of the natural world to life, making learning fun and engaging.
Fostering Curiosity and Critical Thinking
STEM is more than facts; it’s about thinking and solving problems. Key skills for the future. Mentorship, aided by technology, has given a 60% boost in guidance for students.2 And getting high schoolers involved in research has increased critical thinking by 35%. These efforts help students think creatively and innovatively, instilling a love for learning that lasts a lifetime.
STEM concepts impact our daily lives, like the tech in our phones and eco-friendly energy. They’re being taught to kids early on thanks to the National Education Policy.2This forward approach, blending real-world applications with school learning, prepares our youth to be the next wave of thinkers and creators.
Empowering Future Scientists
Today, more secondary students are diving into scientific research projects. They are becoming more active in research, and this trend is growing.4 These students are not only pushing the boundaries of science. They’re also getting their research published in secondary science journals. This shows a big change towards scientific publication.4
Inspiring Tomorrow’s Researchers
A detailed study looked at how mentors guide students before college. It used interviews and surveys to understand these mentors’ views.4 Turns out, mentors have different opinions on the value of publishing for student scientists. This shows there’s variety in how mentors see this.4 The analysis found that mentors use a strategy called “exploration” to help students work independently. This is a key insight into how mentorship works.4 The study also suggested that mentors should share more about their own scientific thinking when helping students with writing. They should also give clearer and step-by-step support to students. This would make mentorship even better.4
Cultivating Scientific Curiosity
Now, secondary students are displaying their scientific abilities at events like the Year 9 Science Fair.5 This fair lasted from 13:45 to 15:30, marking the end of almost two months of hard work. It showed just how committed these students are.5 During British Science Week, the fair focused on teamwork, communication, and solving problems. Students explained their research to parents, teachers, and friends.5 The topics covered varied, from water rockets to Arduino phone sensor apps. This variety highlighted the students’ curiosity and creativity.5
The Year 9 Science Fair was an important step for students. It prepared them for more advanced scientific projects in the future.5 Its goal was to enhance the students’ critical thinking, problem-solving, and communication skills. This was key for their further scientific investigations and achievements.5
The success of these events has led to the creation of the Student Summit. It has attracted 45 registrations and 40 attendees per day, on average.6 Big names like AstraZeneca back this summit, providing a significant opportunity for students to explore their interests and grow.6 The summit’s organizers offer free access to members of the Swedish Chemical Society. This inclusive approach removes financial barriers and ensures everyone can benefit from the summit’s experiences.6
Youth Science Programs: A Gateway to Exploration
Science opens many doors for young people to explore and learn. Science programs for youth give kids real chances to use what they learn and get advice from adults in the field. This way, they can start their journey towards becoming future scientists.
For example, there’s a big science contest for middle school kids. It challenges them to solve real problems. Doing this helps them get better at finding solutions to hard puzzles.7 Robots are changing how we do things, making tasks faster and more precise. This excites young minds, making them want to create their own innovations.
Mentoring Aspiring Scientists
Having someone to guide and support you is really important for young scientists. A program called Project Exploration has shown great results. Kids who’ve been in it are more likely to finish school, go on to college, and choose to study science.8
For those who went to college, many picked science, math, or technology fields. This shows the impact that good teaching and support can have on a student’s future. Through mentorship, kids can aim high and achieve great things.
Some of the best minds in science work at 3M, always looking for new ways to make the world better. By showing students how exciting science can be, they light a spark in them. The 3M Young Scientist Challenge lets students showcase their ideas in many important areas.7
Fostering Innovation and Scientific Literacy
Science programs for young people do more than train future scientists. They also help everyone else understand the importance of science. Projects like the Curiosity-Driven Science Initiative are investing in new ways to get kids and communities interested in science.9
This kind of learning happens mainly outside of regular school. There, kids can get really curious and learn how to solve problems. They stay interested in science, which is key to their future success.
These programs are not just about learning. They are about building a future where smart, curious kids lead the way to solving big issues and making the world better.
Science Outreach Initiatives for the Next Generation
In today’s world, science outreach programs play a key role. They inspire the next generation’s problem-solvers and leaders. Top organizations offer many programs to spark interest in STEM among youth.10
An example is the Drop Anywhere Labs program. It has impacted over 1.5 million students and 25,000 teachers in all 50 states. Since 2018, it has been bringing fun science learning to places that lack resources.10
The Emerging Leaders in STEM Programme focuses on high school and college women. It pairs them with professionals in STEM from Maryland and Washington, DC. This effort aims to boost the number of future female scientists and engineers.10
Stanford’s Advanced Science Exploratory Program is another excellent example. It provides seminars in various fields for high school students. This gives them a chance to explore specialized scientific areas.11
Projects like Generation Health and FIRST LEGO League are helping young people as well. They offer STEM learning for students in grades 6-8. Middle schoolers get to try robotics and learn about sustainable energy.10
Organizations such as ACT-SO are vital too. They host events that highlight academic and creative success. Junior Achievement’s Finance Park teaches financial skills. All these efforts are crucial to the bigger science outreach picture.10
Universities also play a role in shaping the future of science. UF Health and AstraZeneca support a Cancer Research Symposium. The University of Maryland helps underprivileged Baltimore students succeed in STEM and healthcare.10
Science outreach initiatives are making a big difference. They keep young minds curious and ready to face the world’s challenges. Investing in these programs ensures a smarter, brighter future for all.10,11
Luxurious, Premium Methods for Youth Mentorship
In the world of innovators and problem-solvers, top-notch organizations are at the forefront. They aim to prepare the next generation. For example, platforms like GrowthMentor12 have hosted over 24,000 mentor calls. They do this using a network of 500+ professionals. Also, there are unique programs like Mentorpass12, targeting start-ups directly. This brings direct, sharp advice to these specific business ventures.
Nurturing Young Minds with Cutting-Edge Resources
These special mentorship services give youth more than just access to experts. They provide essential tools and resources. For instance, Mentorcam12 has assisted startups to gain over $1.42 million. This shows the huge impact of their immersive experiences. Similarly, MentorCliQ12, as the leading mentoring software, has lowered employee turnover by 76%. This highlight’s the effectiveness of their modern tools.
Inspiring Innovators through Immersive Experiences
Moreover, youth mentorship has expanded to offer life-changing immersive experiences. One unique offer is Oneday12, which costs £399 a month for 18 months. Then, there’s Score12, a free service reaching over 11 million entrepreneurs. Both these programs enrich the lives of young innovators with practical skills and insights. They encourage critical thinking, problem-solving, and entrepreneurial spirit. This prepares them to be the next generation of leaders.
Mentorship Platform | Founded | Key Statistics | Pricing |
---|---|---|---|
GrowthMentor | 2018 |
|
$75 per month (paid quarterly), unlimited free calls with all mentors |
Clarity.fm | 2012 |
|
Custom pricing |
Mentorpass | 2019 |
|
Pricing starts at $300/month for 30 credits |
Mentorcam | 2019 |
|
Membership pricing: $350-$850/month |
MentorCliQ | 2012 |
|
Custom pricing model |
Oneday | 2020 | £399/month for 18 months | |
Score | 1964 |
|
Mentoring is a free service |
MicroMentor | 2001 |
|
No cost to entrepreneurs, powered by volunteer mentors |
Together | 2018 |
|
Free option, Starter, Professional, and Enterprise |
Mentessa | 2019 |
|
Free, Standard, Premium |
Unlocking the Potential of Tomorrow’s Trailblazers
Our main goal is to help the next generation of scientists and innovators reach their full potential. We do this by offering unique hands-on learning experiences. These experiences help young people dive into the endless possibilities of science and become the future scientists that will make our future better.13
Hands-on Learning for Future Scientists
We get future scientists involved in advanced research and hands-on activities. This sparks their curiosity and problem-solving skills. As a result, they achieve more than they ever thought possible. For example, our students look at how microplastics affect the sea or work on ways to grow food that’s good for the environment.
Our programs link up with top schools and leading research labs. This lets future scientists use the latest tools and learn from top experts. They not only learn by doing but also get better at thinking critically and solving complex problems.14
By giving future scientists the support they need, we’re creating a new world full of innovation. Here, their unlimited abilities will lead to amazing changes in our society.14
Cultivating a Passion for Discovery
Starting kids early with cultivating a passion for discovery is vital. It sets the stage for a lifelong love of science.15 Including real-world examples in lessons and improving teachers’ skills can make a big difference. It helps future scientists overcome the big challenges ahead.15
Empowering Young Explorers
Programs for young scientists are key in empowering young explorers. They light the spark of excitement about the world. The Advanced Science Exploratory Program (ASEP) lets students do hands-on work in labs. This not only makes them curious but also helps them learn a lot.16
AI in Medicine summer programs are also crucial. They let students see how AI is changing the medical field. Students get to work on AI projects. This helps them develop skills for future innovation.16
Fostering a Love for Science
Efforts to boost interest in science are very important. They introduce young people to real science. These hands-on experiences can inspire a deep love for science.16 Efforts to promote science favor equal chances for budding scientists from all walks of life. This ensures that everyone has a shot at scientific exploration.16
Workshops like those at the Introduction to Logic High School Summer Camp are fun and educational. They focus on logic and its role in science. These activities help students work together and learn more about science.16
Programs like the Cardiothoracic Surgical Skills Summer Internship and the Genomics Research Internship at Stanford are life-changing. They offer real-world experience in medicine and genomics. Students work with experts and make real contributions to their fields.16
Cultivating a passion for discovery, empowering young explorers, and fostering a love for science can do so much. It can unleash the potential of tomorrow’s problem-solvers. These efforts inspire young people to make a better world.
The Importance of Scientific Literacy in a Rapidly Evolving World
In today’s world, knowing about science is more important than ever before.17 Adults face tough choices in healthcare, jobs, and ethics daily. Knowing science helps them make better choices.17 Teaching kids about science early on helps them do well in the future as our world changes quickly.
Equipping Young Minds for the Future
Understanding science helps people make smart choices and dream big in science and tech careers.17 When young people know a lot about science, they might choose jobs in science. This leads to new discoveries and helpful inventions for everyone.18 Science is moving ahead fast. So, it’s important for young people to be science smart for the future’s challenges.
18 For over 40 years, people have talked about “scientific literacy” in science teaching. It’s about understanding science without getting stuck in too many details.18 People still argue about what “scientific literacy” really means. Some say it’s just about knowing science. Others think it should include using science and learning on your own.
18 The OECD checks how well young people around the world know about science. They look at brainpower, personal feelings about science, and how society sees science.18 It turns out, what kids learn about science in school early on is a big predictor of how much they’ll know as adults. So, starting to learn science young is key.
18 “Scientific literacy” is about more than just reading and writing. It shows how important science is in our education.18 Some think “scientific literacy” should focus on science facts. Others believe it should be about a wider understanding of science’s role in our world.
Teaching kids about science is key to helping them succeed in our changing world.17 It prepares them to make smart choices, take on science and tech jobs, and help our society move forward. By giving kids the right science skills, we can help them and our world do better.
Investing in the Next Generation of Problem-Solvers
The world faces many new challenges often. So, investing in the next generation’s problem-solvers is key. By backing youth science programs, we help future STEM leaders. This support enables them to make the world a better place tomorrow.19
Supporting Youth Science Programs
Companies are now giving top-notch resources and hands-on experiences to spark young minds. For example, Viasat’s ‘Viasat Beyond: Space’ contest gives winners money, mentors, and a trip to London.20 Also, Viasat joins efforts with Lockheed Martin and the National Space Academy to run Space Camps in the UK. These camps focus on green practices, new ideas, and job paths in the space field.20
Viasat is also a big supporter of the FIRST Robotics contest. Teams like Tech Titans and Robo-Lions get help to achieve success at world championships.20 And, the Viasat STEAM Leadership Series took 1,000 students to see the latest tech at the USS Midway Museum in San Diego. They got to see cool stuff like cars powered by algae and space gear.20
But Viasat doesn’t stop there. It works with the non-profit TeenTech, guiding young people into science and tech careers.20 Plus, Viasat offers internships through partnerships with universities like UC San Diego, Arizona State, and Georgia Tech. These internships help students get real experience in STEM jobs.20
Nurturing Future Leaders in STEM Fields
It’s crucial to arm the young with skills for a fast-changing world. The Women Who Inspire conference, backed by Viasat and Generation STEAM, inspired 200+ high schoolers on Women’s Day.20 And, Viasat’s program for early careers has kickstarted many STEM professionals. It gives them a solid start with real tech jobs.20
The need for STEM skills is rising quickly. Most jobs need these skills today, with more STEM work expected.19 Therefore, investing in young problem-solvers is a must. By fueling youth science programs and backing future STEM leaders, we support the dreamers and builders. They will lead the way in making a better future.19
Building a Bridge to a Brighter Tomorrow
We are dedicated to inspiring young minds and shaping the future of science. Through building a bridge to a brighter tomorrow, we aim to tap into the unlimited potential of the next generation. This will enable them to tackle global issues with innovation and solution-based thinking.21
Our work covers various areas, including health and nutrition and education and community support. Programs such as our health projects and improving access to clean water, online study aids, and worldwide CSR health efforts all make a real impact on those in great need.21
Inspiring Young Minds to Shape the Future
By inspiring young minds and nurturing a love for science, we foresee unlimited opportunities ahead. It’s troubling to know that children from poor backgrounds are almost four times more likely to miss school than richer kids. Plus, over half of the world’s children and young adults under 25 lack internet at home.21 So, our goal is to close these gaps and ensure all kids have what they need to flourish.
Our extensive youth science programs, mentorship initiatives, and hands-on learning opportunities empower our youngsters. By22 involving local communities and leaders, we set off a chain reaction. This effort inspires young minds to address the biggest challenges our planet faces.
FAQ
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Source Links
- https://about.underarmour.com/en/stories/2020/11/stephen-curry-and-under-armour-launch-the-curry-brand–aimed-to-.html
- https://scoonews.com/news/transforming-young-minds-the-imperative-of-stem-education-in-todays-world/
- https://baominhmart.vn/empowering-young-minds-the-role-of-technology-in-science-education/
- https://www.biorxiv.org/content/10.1101/2024.03.15.585231v1
- https://www.nordangliaeducation.com/biss-puxi/news/2024/03/empowering-future-scientists
- https://kemisamfundet.se/empowering-future-scientists-highlights-from-the-new-national-student-summit-in-organic-chemistry/
- https://youngscientistlab.com/
- https://www.niost.org/pdf/afterschoolmatters/asm_2012_16_fall/ASM_2012_16_fall_6.pdf
- https://www.moore.org/initiative-strategy-detail?initiativeId=curiosity-driven-science-initiative
- https://www.astrazeneca.com/r-d/our-approach/stem-at-astrazeneca.html
- https://eso.stanford.edu/programs/high-school-students
- https://www.growthmentor.com/blog/online-mentoring-platforms-software/
- https://hoadatsetngocdiep.com/the-thinkers-of-tomorrow-building-a-community-for-young-scientists/
- https://www.illumina.com/ko-kr/company/about-us/corporate-social-responsibility/empower-communities/stem-education.html
- https://bunchahanoi1982.com/the-road-to-discovery-preparing-young-minds-for-a-career-in-science/
- https://vuatraicaykieulinh.com/igniting-ambition-the-path-to-becoming-a-future-leader-in-science/
- https://www.hudsonalpha.org/unlocking-the-power-of-science-literacy-a-path-to-a-brighter-future/
- https://files.eric.ed.gov/fulltext/EJ884397.pdf
- https://medium.com/@w.dimashfernando/federal-government-boosts-funding-for-stem-education-in-public-schools-ea47eaab2656
- https://news.viasat.com/blog/corporate/how-viasat-is-empowering-the-next-generation-of-stem-innovators
- https://techwave.net/nurturing-dreams-empowering-children-for-a-brighter-tomorrow/
- https://www.jacobs.com/newsroom/news/building-bridge-brighter-future