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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
Structural geology: Finding faults
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Structural geology: Finding faults

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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, STEM clubs and at home. This resource links to KS4 and KS5 Geography and Geology. 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 Craig Magee, a structural geologist at the University of Leeds in the UK, who is researching how magma moves through the crust to erupt at the surface, focusing on dyke-induced faults. • This resource also contains an interview with Craig. If you or your students have a question for him, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. Craig will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Craig’s research, and tasks them to create their own cross section of the Earth’s crust. • The PowerPoint reiterates the key points in the article and includes further talking points. 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!
Mapping every protein in the human body
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Mapping every protein in the human body

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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, STEM clubs and at home. This resource links to KS4 and KS5 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 Neil Kelleher, of Northwestern University in Illinois in the US, who is leading the Human Proteoform Project, with the aim of cataloguing every protein in every different kind of cell in the human body. • This resource also contains an interview with Neil. If you or your students have a question for him, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. Neil will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Neil’s research, and tasks them to promote the Human Proteoform Project. • The PowerPoint reiterates the key points in the article and includes further talking points to encourage students to reflect on Neil’s work, as well as their own skills and aspirations. 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!
The art of propaganda
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The art of propaganda

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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, STEM clubs and at home. This resource links to KS4 and KS5 Art and Design. 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 Harriet Atkinson, from the University of Brighton in the UK, who is uncovering the role of modernist artists between 1933 and 1953 in Britain – how the influences of refugees, the outbreak of World War II and eventual victory all affected exhibitions, and how these in turn affected the people who saw them. • This resource also contains an interview with Harriet. 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. Harriet will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Harriet’s research, and tasks them to look deeper into how art has influenced public opinion. 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!
Academic primary health care: adapting during the pandemic
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Academic primary health care: adapting during the pandemic

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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, STEM clubs and at home. This resource links to KS4 and KS5 Biology. Chemistry, Maths, Psychology and Sociology. 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 Trish Greenhalgh, a GP and primary health care academic, based at the University of Oxford, who has helped to develop remote care methods during the COVID-19 pandemic. It also highlights Laiba Husain’s work as she undertakes her PhD in public health. • This resource contains interviews with Trish and Laiba. 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. Trish or Laiba will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Trish and Laiba’s research, and challenges them to take on the role of a healthcare professional. • The article is accompanied by an animation and downloadable script. • The PowerPoint reiterates the key points in the article and includes further talking points to prompt students to reflect on their own skills and aspirations. 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!
Helping to develop a gonorrhoea vaccine
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Helping to develop a gonorrhoea vaccine

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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, STEM clubs and at home. This resource links to KS4 and KS5 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 Dr Cynthia Nau Cornelissen, a microbiologist who runs her own laboratory at Georgia State University and whose research is focused on gonorrhoea and developing a potential vaccine. • This resource also contains an interview with Cindi. 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. Cindi will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Cindi’s research, and tasks them to look deeper into the different branches of microbiology. 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!
Neuroscience: osteopontin and HIV-associated neurocognitive disorder
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Neuroscience: osteopontin and HIV-associated neurocognitive disorder

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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, STEM clubs and at home. This resource links to KS4 and KS5 Biology 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 Dr Amanda Brown, a neuroscience researcher based at Johns Hopkins University in the US who is studying inflammation and neuronal injury in the brain, particularly that caused by HIV-associated disorders. • It also contains an interview with Amanda. 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. Amanda will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Amanda’s research, and tasks them to think about what they could achieve as a neuroscience researcher. 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 do cooking and cleaning impact the air quality in our homes?
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How do cooking and cleaning impact the air quality in our homes?

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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 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 Professor Nicola Carslaw from the University of York, UK. She is investigating the pollutants and reactive chemicals released indoors by cooking and cleaning to understand how these impact our health. • This resource also contains an interview with Nic. If your students have questions for Nic, 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). Nic will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Nic’s research and challenges them to think about their exposure to pollution throughout the day and what action they could take to reduce this. 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 radioactive elements help us?
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How can radioactive elements help us?

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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, STEM clubs and at home. This resource links to KS4 and KS5 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 Dr Davide Audisio of the Frédéric Joliot Institute for Life Sciences in France. Davide is developing FASTLabEx, a novel technique to synthesise radiolabelled molecules. • This resource also contains an interview with Davide. If you or your students have a question for him, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. Davide will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Davide’s research, and tasks them to think more about medical imaging. • The PowerPoint reiterates the key points in the article and includes further talking points. 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 and why do languages evolve?
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How and why do languages evolve?

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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, school clubs and at home. This resource links to KS4 and KS5 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 • There are over 7,000 languages spoken across the world, but how and why did these languages evolve? To answer this question, Dr Jenny Culbertson of the University of Edinburgh in the UK is investigating our capacity to learn artificial languages – and her findings could help unlock the secrets of this uniquely human ability. • This resource also contains an interview with Jenny about her career path. If your students (or you) have questions for Jenny, you/they can send them to her online. All you 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). Jenny will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Fabrice’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!
How can yeast help us to understand the mysteries of cell biology?
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How can yeast help us to understand the mysteries of cell biology?

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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, school clubs and at home. This resource links to KS4 and KS5 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 • In Dr Fabrice Caudron’s lab at Queen Mary University of London, yeast is helping scientists to understand the inner workings of cells. By studying the “dating behaviour” of these microscopic creatures, Fabrice and his team made a discovery which could eventually help us combat diseases such as Parkinson’s or Alzheimer’s. • This resource also contains an interview with Fabrice and his postdoctural research assistant. Dr Henry Oamen. If your students (or you) have questions for Fabrice or Henry, you/they can send them to the researchers online. All you 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). Fabrice and Henry will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Fabrice’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!
Psychology experiments in virtual reality
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Psychology experiments in virtual reality

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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, STEM clubs and at home. This resource links to KS4 and KS5 Psychology and Social Sciences. 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 Markus Bindemann and his team at the University of Kent in the UK who build photorealistic, 3D avatars in virtual reality to study face perception and person perception. • This resource also contains an interview with Markus. If you or your students have a question for him, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. Markus will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Markus’ research, and challenges them to conduct an eye witness testimony experiment. 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 hydrogen become a metal?
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How can hydrogen become a metal?

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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, 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 Valentin Karasiev and Dr Suxing Hu, experts in high-energy-density physics based at the Laboratory for Laser Energetics, at the University of Rochester in the US. • This resource also contains an interview with Valentin. If you or your students have a question for him or Suxing, 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 Valentin and Suxing’s research, and tasks them to mamke a model of hydrogen atoms. • The PowerPoint reiterates the key points in the article and includes further talking points. 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 at the Etelman Observatory
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Astrophysics at the Etelman Observatory

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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, STEM clubs and at home. 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 resources introduces The Etelman Observatory in the US Virgin Islands, an establishment focused on educating a new generation of students in physics, astronomy and engineering. • This resource contains with interviews with Dr Orange and Dr Morris who lead the observatory. 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. Dr Orange or Dr Morris will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Dr Orange and Dr Morris’ work, and links for them to find out more about the observatory. • The PowerPoint reiterates the key points in the article and includes further talking points. 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 do some chemical reactions oscillate?
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Why do some chemical reactions oscillate?

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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/chemistry clubs and at home. This resource links to KS4 and KS5 chemistry and is also internationally relevant. 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 • A chance discovery of an unusual oscillatory reaction by a Russian chemist nearly 70 years ago has paved the way for some potentially exciting, modern applications. Professor Irving Epstein at Brandeis University, USA, is investigating the mysteries behind this very special chemical reaction. • This resource also contains an interview with Irv and his career path. If your students (or you) have questions for Irv you/they can send them to him online. All you 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). Irv will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Irv’s research and challenges them to make a pH indicator. 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!
What if we could build bones using stem cells and gene therapy?
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What if we could build bones using stem cells and gene therapy?

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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/science clubs and at home. This resource links to KS4 and KS5 Biology and is also internationally relevant. 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 • “Our bones are extremely important, not just for supporting our body and protecting our internal organs, but also as a reservoir of minerals and other substances involved in metabolism,” says Dr Pascale V Guillot. This teaching resource explains the work of Pascale from the University College London in the UK. Pascale is leading a team of cell biologists who are using human stem cells to grow both healthy and brittle bone tissue in the lab. Why? So they can investigate the causes of a brittle bone disease called osteogenesis imperfecta and develop innovative treatments to make bones stronger. • This resource also contains an interview with Pascale about her career path. If your students (or you) have questions for Pascale, you/they can send them to Pascale online. All you 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). Pascale will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Pascale’s research and challenges them to think about the impact of cell biology and gene therapy. 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!
Solving the Tower of Hanoi with mathematics
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Solving the Tower of Hanoi with mathematics

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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/maths clubs and at home. This resource links to KS4 and KS5 Maths and is also internationally relevant. 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 • What can a seemingly simple puzzle - the Tower of Hanoi - teach us about mathematics? Professor Dan Romik, of the University of California, Davis, has investigated the Tower of Hanoi and, despite the puzzle’s apparent simplicity, has shown that it continues to yield new surprises. • This resource explains recursion, graphical representation, fractals and shortest paths - all using the Tower of Hanoi as the foundation. • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Dan’s research and challenges them to solve the Tower of Hanoi. 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!
AI and computer science for social good
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AI and computer science for social good

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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, STEM clubs and at home. This resource links to KS4 and KS5 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 teaching resource explains the work of Professor Zhigang Zhu, a computer scientist based at The City College of New York in the US. He and his collaborators have established the SAT-Hub project, which aims to provide better location-aware services to underserved populations with minimal infrastructure changes. • This resource also contains an interview with Professor Zhu. If you or your students have a question for him, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. Professor Zhu will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Professor Zhu’s research and tasks them to think more about the potential of computer 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!
The molecules behind plant growth
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The molecules behind plant growth

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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/science clubs and at home. This resource links to KS4 and KS5 Biology and Chemistry and is also internationally relevant. 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 • Plants do not have a nervous system, a brain, or any of the sensory organs that we are familiar with in animals – so how do they know how to respond? This teaching resource explains the work of Dr Alexander Jones from the University of Cambridge in the UK. Alexander is a plant scientist investigating how the plant hormone gibberellin affects plant growth and what this means for the crops of our future. • This resource also contains an interview with Alexander and his team members Dr Annalisa Rizza and Bijun Tang about their role on the research project and career path. If your students (or you) have questions for Alexander, Annalisa or Bijun, you/they can send them to them online. All you 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). Alexander, Annalisa or Bijun will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Alexander’s research and challenges them to think about how plants react to their surrounding environment and grow. • The PPT reiterates the key points in the article and includes separate Bloom’s Taxonomy talking points. 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!
Understanding the mechanisms behind Lyme disease
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Understanding the mechanisms behind Lyme disease

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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, STEM clubs and at home. This resource links to KS4 and KS5 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 Dr Catherine Brissette, based at the Department of Biomedical Sciences at the University of North Dakota in the US, who is seeking to understand more about Lyme disease. • This resource also contains an interview with Dr Brissette. 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. Dr Brissette will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Dr Brissette’s research and a range of activities, including a challenge from Dr Brissette to make an origami tick! • The PowerPoint reiterates the key points in the article and includes further talking points. 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: Searching the skies
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Astrophysics: Searching the skies

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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, 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 Brad Netwon Barlow of the Culp Planetarium and High Point University in the US, who is delving deeper into space to hunt for a strange type of star called a hot subdwarf. • This resource also contains an interview with Dr Barlow. If you or your students have a question for him, you can submit it online – go to the article using the Futurum link below and scroll to the bottom of the page. Dr Barlow will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Dr Barlow’s research and includes a link to avirtual tour of the planetarium. 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!