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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 physics help us study the brain?
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How can physics help us study the brain?

(0)
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!
What happens when plastics break down into microplastics and nanoplastics?
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What happens when plastics break down into microplastics and nanoplastics?

(0)
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 environmental 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 Dr Jeffrey Farner and Dr Olubukola Alimi, environmental engineers at the FAMU-FSU College of Engineering in Florida, USA, and the University of Alberta in Canada. They are investigating what happens when plastics break down into microplastics and nanoplastics. • This resource also contains an interview with Jeff and Bukola and offers an insight into careers in environmental chemistry. If your students have questions for Jeff and Bukola, 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 Jeff and Bukola’s research and challenges them to design an engineering solution to an environmental problem in their area. 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!
Can chemistry make beer taste better?
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Can chemistry make beer taste better?

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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, food tech clubs and at home. This resource links to KS4 and KS5 chemistry and food technology. 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 Ron Quinlan, an analytical chemist at Christopher Newport University. He is analysing the chemistry of beer and beer ingredients to help brewers brew the perfect pint. • This resource also contains an interview with Ron and offers an insight into careers in analytical chemistry. If your students have questions for Ron, 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 Ron’s research and challenges them to conduct their own chromatography experiment to separate out the colours in inks and dyes. • The accompanying PowerPoint reiterates the key points in the article and encourages students to reflect on their own aspirations. 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!
Can brain cooling revolutionise stroke treatment?
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Can brain cooling revolutionise stroke treatment?

(0)
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, 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 Ting-Yim Lee (a biomedical engineer) and Dr Marat Slessarev (a clinical doctor). They have developed a new device that can cool a patient’s brain to help them recover from a stroke. • This resource also contains an interview with Ting and Marat and offers an insight into careers in biomedical engineering. If your students have questions for Ting and Marat, 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 Ting and Marat’s research and challenges them to debate the ethical issues of using animals in medical research. 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?

(0)
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 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!