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Futurum Careers

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Whether you’re a teacher of STEM, information technology, humanities, careers or social studies, we want to help you with all of these challenges and put the ‘wow’ into classrooms. We want to support you with resources that aim to engage all students regardless of their gender, ethnicity or background. There are multiple organisations and global initiatives that are focused on this mission, and our aim is to bring these resources together so that you can access them quickly and easily – For Free

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Whether you’re a teacher of STEM, information technology, humanities, careers or social studies, we want to help you with all of these challenges and put the ‘wow’ into classrooms. We want to support you with resources that aim to engage all students regardless of their gender, ethnicity or background. There are multiple organisations and global initiatives that are focused on this mission, and our aim is to bring these resources together so that you can access them quickly and easily – For Free
How can the transistors in your smartphone form quantum dots?
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How can the transistors in your smartphone form quantum dots?

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 physics, engineering and computer science. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This resource introduces the work of Professor Sorin Voinigescu, a quantum engineer at the University of Toronto. He is investigating how commercial transistors can create quantum dots. • This resource also contains an interview with Sorin’s students and offers an insight into careers in quantum engineering. If your students have questions for the team, they can send them through the Futurum Careers website. • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on the team’s research and challenges them to create a beginners guide to quantum dots. This resource was first published by Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources, or have suggestions for improvements, please let us know and leave us some feedback. Thank you!
How can we measure time?
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How can we measure time?

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 physics. It can also be used as a careers resource and links to Gatsby Benchmarks (UK): Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Stefan Zeppetzauer from the University of Queensland in Australia. He is using quantum mechanics to investigate time – one of the most familiar but least understood concepts in physics! • This resource also contains an interview with Stefan and offers an insight into careers in quantum engineering. If your students have questions for Stefan, they can send them through the Futurum Careers website. • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Stefan’s research and challenges them to create a timeline of time measurement devices. This resource was first published by Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources, or have suggestions for improvements, please let us know and leave us some feedback. Thank you!
What do quantum physicists know about gravitational waves and dark matter?
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What do quantum physicists know about gravitational waves and dark matter?

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Suitable for 14 to 19-year-olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom or shared with students online. This resource links to KS4 and KS5 physics and maths. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Dr William Campbell and Emma Paterson at The University of Western Australia. As quantum physicists, Emma and Will are using quantum technology for different applications: while Will is hoping to discover new gravitational waves, Emma is focusing on detecting dark matter. • This resource also contains interviews with Will and Emma, providing insights into careers in quantum physics. • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Will and Emma’s research, and tasks them to create a podcast episode on quantum technologies. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
Why is it hard to build quantum computers?
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Why is it hard to build quantum computers?

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 physics and computing. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Dr Salini Karuvade, a quantum physicist at the University of Sydney. She is investigating how to overcome the challenges that prevent quantum computers from working very well. • This resource also contains an interview with Salini and offers an insight into careers in quantum physics. If your students have questions for Salini, they can send them through the Futurum Careers website. • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Salini’s research and challenges them to play a quantum-based computer game. This resource was first published by Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources, or have suggestions for improvements, please let us know and leave us some feedback. Thank you!
How are flexible electronic devices solving healthcare challenges?
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How are flexible electronic devices solving healthcare challenges?

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5/Grade 9-10 and Grade 11-12 engineering and physics. It can also be used as a careers resource and links to Gatsby Benchmarks (UK): Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Dr Radu Sporea, an electronics engineer. He is leading a team of electronics engineers and surgeons at the University of Surrey in the UK and Gachon University in South Korea as they develop a wearable electronic device to monitor a patient’s blood flow as they recover from an operation. • This resource also contains interviews with team members and offers an insight into careers in electronics engineering. If your students have questions for the team, they can send them through the Futurum Careers website. • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Radu’s research and challenges them to design a new flexible electronic device that could solve a healthcare challenge. This resource was first published by Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources, or have suggestions for improvements, please let us know and leave us some feedback. Thank you!
How can new biomedical imaging techniques help us understand strokes?
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How can new biomedical imaging techniques help us understand strokes?

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 biology and physics. It can also be used as a careers resource and links to Gatsby Benchmarks (UK): Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Dr Shawn Whitehead and Dr Jonathan Thiessen from Western University in Canada. They are investigating new biomedical imaging techniques to deepen our understanding of how strokes affect the brain. • This resource also contains an interview with Shawn and Jonathan and offers an insight into careers in biomedical imaging. If your students have questions for Shawn and Jonathan, they can send them through the Futurum Careers website. • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Shawn and Jonathan’s research and challenges them to design an educational game about biomedical imaging techniques. This resource was first published by Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources, or have suggestions for improvements, please let us know and leave us some feedback. Thank you!
How can physics help us study the brain?
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How can physics help us study the brain?

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 physics. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Dr Orang Alem, an atomic physicist who has applied his physics knowledge to develop new magnetoencephalography technology to improve the diagnosis and monitoring of brain conditions. • This resource also contains an interview with Orang and offers an insight into careers in applied physics. If your students have questions for Orang, they can send them through the Futurum Careers website. • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Orang’s research and challenges them to explore the many uses of optically pumped magnetometers. This resource was first published by Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources, or have suggestions for improvements, please let us know and leave us some feedback. Thank you!
Remembering resistance: non-genetic memory in bacteria
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Remembering resistance: non-genetic memory in bacteria

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Suitable for 14 to 19-year-olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom or shared with students online. This resource links to KS4 and KS5 Biology and Physics. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Dr Hanna Salman and Dr Andrew Mugler, from the University of Pittsburgh in the US, who are finding evidence that bacteria can pass on ‘memories’ to their offspring, over several generations. Understanding more about this process is crucial for the fight against the rise of antibiotic resistance in bacteria. • This resource also contains interview with Hanna and Andrew. If you or your students have a question for them, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. Hanna and Andrew will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Hanna and Andrew’s research, and tasks them to think about how biological physics is tackling some of society’s biggest issues. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
How does physics allow us to look inside the body?
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How does physics allow us to look inside the body?

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 physics, engineering and biology. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Professor Simon Cherry and Professor Ramsey Badawi, biomedical engineers at the University of California Davis. They have developed the world’s first full-body scanner, which has the potential to revolutionise medicine and biomedical research. • This resource also contains an interview with Simon and Ramsey and offers an insight into careers in biomedical imaging. If your students have questions for Simon and Ramsey, they can send them to them online. All they need to do is to go to the article online (see the Futurum link below), scroll down to the end and type in the question(s). Simon and Ramsey will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Simon and Ramsey’s research and challenges them to uncover the historical physics discoveries that have paved the way for Simon and Ramsey’s medical scanner and imagine how biomedical imaging will advance in the future. • The accompanying PowerPoint reiterates the key points in the article and encourages students to reflect on their own aspirations. • In the accompanying podcast, Simon discusses the importance of pursuing your dreams and having confidence in your abilities. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
How can we detect and prevent brain injuries?
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How can we detect and prevent brain injuries?

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Suitable for 14 to 19-year-olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom or shared with students online. This resource links to KS4 and KS5 Biology, Physics and Engineering. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Professor Christian Franck, from the University of Wisconsin-Madison in the US, who leads the PANTHER programme, researching new ways of detecting and preventing traumatic brain injuries. • This resource also contains interviews with Christian and members of the PANTHER team, providing insights into their areas of research. If you or your students have a question for them, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. The team will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on PANTHER’s research, and tasks them to design a device that could solve a societal issue. • The animation summarises the team’s research and is accompanied by a script. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
Deducing how Antarctica will respond to climate change
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Deducing how Antarctica will respond to climate change

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Suitable for 14 to 19-year-olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom or shared with students online. This resource links to KS4 and KS5 Chemistry, Physics and Biology. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of geoscientists Dr Denise Kulhanek, at the Christian-Albrechts-University of Kiel in Germany, Dr Brian Romans, at Virginia Tech in the US, and Dr Molly Patterson, from Binghamton University in the US, who are delving deep into Antarctica’s geological past to understand how the Antarctic Ice Sheet is likely to be affected by rising global temperatures. • This resource also contains interviews with Denise, Molly and Brian. If you or your students have a question for them, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. The team will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on the team’s research, and tasks them to be scientific communicators. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
Astrophysics: ЗВЕЗДА ЈЕ РОЂЕНА
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Astrophysics: ЗВЕЗДА ЈЕ РОЂЕНА

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Suitable for 14 to 19-year-olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom or shared with students online. This resource links to KS4 and KS5 Serbian and Physics. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This Serbian teaching resource explains the work of astrophysicist Professor Snežana Stanimirović, from the University of Wisconsin-Madison in the US, who has been working with two research surveys, GASKAP and LGLBS, to shed some light on the processes of star formation. • This resource also contains an interview with Snežana. If you or your students have a question for her, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. Snežana will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Snežana’s research, and tasks them to explore star formation. • The accompanying English language animation summarises Snežana’s research. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
A star is born – using next generation telescopes to explore star formation
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A star is born – using next generation telescopes to explore star formation

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Suitable for 14 to 19-year-olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom or shared with students online. This resource links to KS4 and KS5 Physics. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of astrophysicist Professor Snežana Stanimirović, from the University of Wisconsin-Madison in the US, who has been working with two research surveys, GASKAP and LGLBS, to shed some light on the processes of star formation. • This resource also contains an interview with Snežana. If you or your students have a question for her, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. Snežana will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Snežana’s research, and tasks them to explore star formation. • The animation summarises Snežana’s research. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
Die Erforschung der Nanowelt
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Die Erforschung der Nanowelt

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Suitable for 14-19-year olds (secondary and high schools, and college), this German language article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 German, physics and chemistry. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of the Center for NanoScience (CeNS), a collaboration of research scientists in Munich, Germany, who study different aspects of nanoscience and nanotechnology. • This resource also contains interviews with members of CeNS and offers an insight into careers in nanoscience. If your students have questions for the team, they can send them to them online. All they need to do is to go to the article online (see the Futurum link below), scroll down to the end and type in the question(s). The team will will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on the work of CeNS researchers and challenges them to conduct an experiment to examine the nanoscale properties of different forms of carbon. • The article and activity sheet are also available in English through the weblink below. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
Nanoscience: Examining the extremely small
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Nanoscience: Examining the extremely small

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 physics and chemistry. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of the Center for NanoScience (CeNS), a collaboration of research scientists in Munich, Germany, who study different aspects of nanoscience and nanotechnology. • This resource also contains interviews with members of CeNS and offers an insight into careers in nanoscience. If your students have questions for the team, they can send them to them online. All they need to do is to go to the article online (see the Futurum link below), scroll down to the end and type in the question(s). The team will will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on the work of CeNS researchers and challenges them to conduct an experiment to examine the nanoscale properties of different forms of carbon. • The article and activity sheet are also available in German through the weblink below. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
How can community engagement projects empower STEM students?
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How can community engagement projects empower STEM students?

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 geography, (environmental) physics and (atmospheric) chemistry. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This resource introduces the work of Associate Professor Morewell Gasseller, an environmental physicist at Xavier University of Louisiana, USA. He leads a STEM education programme that equips undergraduate students with vital skills for careers in STEM and empowers local communities to tackle environmental problems, by building and deploying air pollution monitors. • This resource also contains an interview with Morewell and some of his students. If your students have questions for Morewell, they can send them to him online. All they need to do is to go to the article online (see the Futurum link below), scroll down to the end and type in the question(s). Morewell will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Morewell’s research and challenges them to create their own air pollution monitors. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
Electrical engineering and a sustainable future
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Electrical engineering and a sustainable future

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Suitable for 14 to 19-year-olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom or shared with students online. This resource links to KS4 and KS5 Physics and Engineering. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Professor Rukmi Dutta, of the University of South Wales in Australia, who is building a new electric motor that runs at high speeds and uses less power. Improving the efficiency of electric motors reduces their environmental impact. Given that these motors can be used in electric cars and even aircraft, this will make an important contribution to the fight against climate change. • This resource also contains an interview with Rukmi about her research and career. If you or your students have a question for Rukmi, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. Rukmi will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Rukmi’s research, and tasks them to explore the drug development process - from researching diseases to developing medicines. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
On the frontline of the biomedical revolution
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On the frontline of the biomedical revolution

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Suitable for 14 to 19-year-olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom or shared with students online. This resource links to KS4 and KS5 Biology and Physics. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Professor Dayong Jin and his team at the Institute for Biomedical Materials and Devices at the University of Technology Sydney in Australia. Jin uses photonics to investigate the behaviour of cells and molecules, to inform biomedical applications, while his colleagues are working on a range of projects. • This resource also contains interviews with Jin and the team. If you or your students have a question for them, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. They will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on the team’s research, and tasks them to design a new biomedical device. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
Astrophysics and computational cosmology: A superpowered model of the whole universe
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Astrophysics and computational cosmology: A superpowered model of the whole universe

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 physics and astronomy. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Dr Sownak Bose, a computational cosmologist at Durham University, UK. He is using sophisticated simulations of the Universe to uncover the properties of dark matter and how it influenced the development of galaxies and stars. • This resource also contains an interview with Sownak and offers an insight into careers in computational cosmology. If your students have questions for Sownak, they can send them to him online. All they need to do is to go to the article online (see the Futurum link below), scroll down to the end and type in the question(s). Sownak will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Sownak’s research and challenges them to create their own virtual universe. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!
Can quantum physics make the internet more secure?
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Can quantum physics make the internet more secure?

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Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, STEM clubs and at home. This resource links to KS4 and KS5 physics. It can also be used as a careers resource and links to Gatsby Benchmarks: Gatsby Benchmark 2: Learning from career and labour market information Gatsby Benchmark 4: Linking curriculum learning to careers • This teaching resource explains the work of Dr Jacq Romero, a quantum physicist at the University of Queensland, Australia. She is investigating quantum entanglement and applying her research to the creation of the quantum internet. • This resource also contains an interview with Jacq and offers an insight into careers in quantum physics. If your students have questions for Jacq, they can send them to her online. All they need to do is to go to the article online (see the Futurum link below), scroll down to the end and type in the question(s). Jacq will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Jacq’s research and challenges them to design a poster to promote diversity in science and encourage everyone to pursue a career in science. This resource was first published on Futurum Careers, a free online resource and magazine aimed at encouraging 14-19-year-olds worldwide to pursue careers in science, tech, engineering, maths, medicine (STEM) and social sciences, humanities and the arts for people and the economy (SHAPE). If you like these free resources – or have suggestions for improvements –, please let us know and leave us some feedback. Thank you!