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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
Atmospheric science: Cloud seeding and weather modification
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Atmospheric science: Cloud seeding and weather modification

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Thank you for downloading this free resource. Let us know how we are doing and leave us a review. Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, science/STEM/environment clubs and at home. This resource links to KS4 and KS5 Chemistry 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 atmospheric scientist, Darrel Baumgardner, and looks at how cloud seeding is used to modify the weather. This resource also contains an interview with Darrel. The activity sheet provides ‘talking points’ to prompt students to reflect on Darrel’s work and tasks to ensure students consider the different issues connected to weather modification. 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!
Food science: the perfect cup of coffee
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Food science: the perfect cup of coffee

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Thank you for downloading this free resource. Let us know how we are doing and leave us a review. 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 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 Gabriel Keith Harris who studies food science for a living at NC State University’s Food, Bioprocessing, and Nutrition Sciences department. His current work focuses on coffee: its chemical composition, flavour and shelf life, as well as the uses for coffee grounds after brewing. This resource also contains an interview with Dr Harris. The activity sheet provides ‘talking points’ about Dr Harris’ work and prompts students to think about the science behind other food and drink. 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!
KS4-5: Finding new renewable energy sources with theoretical chemistry
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KS4-5: Finding new renewable energy sources with theoretical chemistry

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Thank you for downloading this free resource. Let us know how we are doing and leave us a review. Suitable for 15-18-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, in science/computer clubs and at home. This resource links to KS4 and KS5 Chemistry: chemical and allied industries, energy changes in chemistry, structure, bonding and the properties of matter; Computing and Maths. It is also internationally relevant. It can 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 The article includes an explanation of fuel cells and why they are a potential renewable energy source, an interview with theoretical chemist Dr Mark Tuckerman and an overview of theoretical chemistry i.e. what is it and how does it compare to synthetic chemistry? The activity sheet includes discussion points - seven questions the students can answer in groups or individually. There are also links to free lessons in computer programming, and instructions on how to make a potato clock. 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 we need to study chromosomes?
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Why do we need to study chromosomes?

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Thank you for downloading this free resource. Let us know how we are doing and leave us a review. Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, biology/chemistry/biochemistry/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 Lakxmi Subramanian, of Queen Mary University of London, in investigating how chromosomes segregate during cell division. This resource also contains an interview with Dr Subramanian. The activity sheet provides ‘talking points’ to prompt students to reflect on Dr Subramanian’s work and links to other useful resources. 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 students reach their STEM potential - Chemistry
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Helping students reach their STEM potential - Chemistry

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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, 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 Nick Flynn from the West Texas A&M University, USA, who leads a programme enabling students to reach their potential in STEM. It also shares his passion for chemistry. • This resource contains an interview with Dr Flynn. 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 Flynn will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Dr Flynn’s research and challenges them to design their own STEM programme. 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 can atmospheric chemistry teach us about air pollution?
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What can atmospheric chemistry teach us about air pollution?

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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 Dr Tran Nguyen, an atmospheric chemist at the University of California Davis. She is studying chemical reactions in the atmosphere to understand their impact on air quality and climate change. • This resource also contains an interview with Tran and offers an insight into careers in atmospheric chemistry. If your students have questions for Tran, 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). Tran will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Tran’s research and challenges them to design a clean air action plan to reduce air pollution in their local area. • An animation about Tran’s work is available through the weblink, along with a downloadable script. • The accompanying PowerPoint reiterates the key points in the article and encourages students to reflect on their own 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!
How do enzymes speed up chemical reactions?
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How do enzymes speed up chemical reactions?

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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 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 Judith Klinman, a biochemist at the University of California Berkeley, USA. She is investigating how enzymes accellerate biochemical reactions. • This resource also contains an interview with Judith and offers an insight into careers in biochemistry. If your students have questions for Judith, 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). Judith will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Judith’s research and challenges them to investigate enzymes found in everyday places, such as sliced apples turing brown. 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!
Manipulating the brain’s ‘gatekeepers’: thwarting obesity and dementia
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Manipulating the brain’s ‘gatekeepers’: thwarting obesity and dementia

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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 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 Vincent Prevot, a neuroendocrinologist based at the Inserm in Lille, France. He collaborates with Professor Markus Schwaninger and Dr Ruben Nogueiras on the WATCH project, which could help prevent, stall or reverse age-related diseases. • This resource also contains an interview with Vincent, Markus and Ruben. 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 think about the role the hypothalamus plays in the brain. • This resource is also available in Spanish, French and German from the link 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!
Chemistry: Detecting microplastics in a great lakes watershed
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Chemistry: Detecting microplastics in a great lakes watershed

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Thank you for downloading this free resource. Let us know how we are doing and leave us a review. 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 Dr Julie Peller, from Valparaiso University in Indiana, USA, who is assessing the microfibre pollution in surface waters of the Great Lakes with her undergraduate students. • This resource also contains an interview with Dr Peller. 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 Peller will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Dr Peller’s research and challenges them to go plastic-free for a day. 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!
Antimicrobial resistance and pollutants.
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Antimicrobial resistance and pollutants.

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Thank you for downloading this free resource. Let us know how we are doing and leave us a review. Suitable for 14-19-year olds (secondary and high schools, and college), this article and accompanying activity sheet can be used in the classroom, chemistry/engineering/biology/STEM clubs and at home. This resource links to KS4 and KS5 Chemistry, 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 that Dr Helen Bridle, from Heriot-Watt University, is doing on using sensors to explore the relationship between antimicrobial resistance and pollutants in India. This resource also contains an interview with Dr Bridle. The activity sheet provides ‘talking points’ to prompt students to reflect on Dr Bridle’s work and links to find out more, including contact details for Dr Bridle. 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!
Chemical microbiology: How can we discover new antibiotics?
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Chemical microbiology: How can we discover new antibiotics?

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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 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 Mohammad (Mo) Seyedsayamdost, a chemical microbiologist at Princeton University, USA. He is investigating bacterial natural products in order to discover new antibiotics. • This resource also contains an interview with Mo and offers an insight into careers in chemical microbiology. If your students have questions for Mo, 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). Mo will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Mo’s research and challenges them to summarise his research in a 60 second presentation. 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!
Cleaning up hydrogen production
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Cleaning up hydrogen production

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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 Nicolas Boscher and his team at the Luxembourg Institute of Science and Technology who are using chemical engineering techniques – and taking inspiration from photosynthesis occurring in plants – to develop new polymers with the ability to produce hydrogen in a clean way. • This resource also contains interviews with 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. The team will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Nicolas’ research, and challenges them to create their own multi-disciplinary ‘research team’ to tackle a global problem! • The PowerPoint reiterates the key points in the article and includes further talking points to encourage 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!
How can we measure gases dissolved in seawater?
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How can we measure gases dissolved in seawater?

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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 engineering and geography. 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 Anuscheh Nawaz, an ocean engineer at the University of Washinton, USA. She is developing the technology needed to measure concentrations of nitrous oxide (a potent greenhouse gas) dissolved in the ocean. • This resource also contains an interview with Anuscheh and offers an insight into careers in ocean engineering. If your students have questions for Anuscheh, 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). Anuscheh will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Anuscheh’s research and challenges them to design a proposal to bring life into ocean dead zones. 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 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!
Enabling students to use large datasets
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Enabling students to use large datasets

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This resource introduces Project EDDIE (Environmental Data-Driven Inquiry and Exploration), a community of STEM instructors and educational researchers that works to develop flexible classroom modules and resources. Project EDDIE’s resources link to KS4 and KS5 Science, Technology, Engineering, Mathematics and Geography. • This resource also contains an interview with Project EDDIE team member, Dr Tanya Josek. 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. Tanya will reply! • The activity sheet contains links and further information so you can access all the Project EDDIE teaching resources. • The PowerPoint reiterates the key points in the article. 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 were the chemical elements born?
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How were the chemical elements born?

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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 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 Maria Lugaro, a nuclear astrophysicist of the Konkoly Observatory in Hungary. She is working on the RADIOSTAR project, investigating radioactive nuclei and the clues they left behind in meteorites. • This resource also contains an interview with Maria. 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. Maria will reply! • The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on Maria’s research, and challenges them to build their own spectrometer. 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!
Biomanufacturing: The engineering behind Evolutor
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Biomanufacturing: The engineering behind Evolutor

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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 & 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 • These teaching resources explain the work of Professor Tuck Seng Wong and his team, based at The University of Sheffield in the UK, who are applying the concept of Darwinian evolution to engineer biological systems for industrial applications. • The article also contains interviews with Tuck 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. 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 think about how they would apply biomanufacturing technology to an industry. • The animation summarises the team’s work and is accompanied by the script. • The PowerPoint reiterates the key points in the article and includes further talking points to encourage 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!
What is the fate of dissolved oxygen in our oceans?
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What is the fate of dissolved oxygen in our oceans?

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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, Biology & 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 Babette Hoogakker, based at Heriot-Watt University in the UK, who leads the FARGO project, which studies past dissolved oxygen concentrations in the Pacific Ocean. The aim is to improve understanding of the longer-term seawater oxygen cycle and improve climate models of the future. • This resource also contains an interview with Babette and her colleague in the field of palaeoceanography, Dr Catherine Davis. If you or your students have a question for Babette or Catherine, 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 Babette and Catherine’s research, and tasks them to think about what research they would undertake to help achieve the UN Sustainable Development goal number 14, ‘Life Below Water’. 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!
From field to lab: the changing nature of archaeology
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From field to lab: the changing nature of archaeology

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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 Humanities 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 introduces the Archaeological Investigations of Colonial Maryland project led by archaeologist Dr Liza Gijanto and analytical chemist Dr Randolph (Randy) K. Larsen. The project provides an introduction for undergraduate students into the practical world of archaeology and the different disciplines it involves, including analytical chemistry and photogrammetry. • This resource also contains interviews with Liza, Randy and their 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. The team will reply! �� The activity sheet provides ‘talking points’ (based on Bloom’s Taxonomy) to prompt students to reflect on the project, and tasks them to devise their own archaeology project. 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!