Search results for #NuclearExplained
Radioisotopes have many useful applications, like making healthcare products safer by getting rid of harmful chemicals, bacteria and toxins that are hazardous to humans. 🩺 Read our #NuclearExplained article to learn more 👇 atoms.iaea.org/4bYNOcc
🏺 Nuclear science and technology help us to study and preserve cultural heritage, including valuable works of art and archaeological objects. Learn more from #NuclearExplained 👇
Ever wondered what the blue glow is you see in reactor photos and videos? It’s called #CherenkovRadiation, and it's useful in our nuclear safeguards work. Learn how in our #NuclearExplained 👉 bit.ly/3oEFaYF
#DidYouKnow that there are over 3000 known radioisotopes? These are unstable forms of elements produced in nuclear research reactors and accelerators to enhance healthcare, improve crops and serve many other applications. Learn more on #NuclearExplained: atoms.iaea.org/4bYNOcc
☢️#Radiation: we're exposed to it everyday but what is it? Is it always bad for us, and what can we use ionizing radiation for? 🤔 🔍 Check out our #NuclearExplained for answers to all of your questions about radiation. 👉atoms.iaea.org/3SJzmO4
Planning to rewatch the #Oscar-winning #Oppenheimer movie? Don't let complex nuclear jargon hold you back! #NuclearExplained breaks down some common scientific terms you’ll encounter in the 🎥.
A clean energy transition means shifting away from energy sources that release a lot of greenhouse gases to those that release little to no GHGs. #Atoms4Climate Nuclear can replace coal as part of the clean energy transition. Check out #NuclearExplained: atoms.iaea.org/42LibP6
Phasing out coal is critical to meet the #ClimateGoals and limit #ClimateChange. Shifting energy production from coal to low-carbon sources like renewables and nuclear is now the sustainable way forward. #Atoms4Climate More from #NuclearExplained 👉 atoms.iaea.org/42LibP6
We love this series #NuclearExplained by the @iaeaorg. Our program at Argonne National Laboratory hosts 10-15 IAEA training courses each year on various applications of peaceful uses of nuclear energy and technology. #NuclearExplained ➡ atoms.iaea.org/3SrfEq0
Neutron activation analysis is a nuclear technique used by investigators to analyse criminal evidence such as a bullet. #NuclearExplained Learn how this technique works and discover other ways nuclear techniques help crime investigations: atoms.iaea.org/475m2XI
What makes #Uranium the powerhouse for nuclear reactors? #NuclearExplained takes you through the A-Z of this element. 👉 atoms.iaea.org/uranium
🔍 X-ray techniques, neutron activation analysis, ion beam analysis and radiocarbon dating help analyse evidence related to crimes — from drug trafficking to murders or art forgeries. Read how via #NuclearExplained ↪️ atoms.iaea.org/475m2XI
Computer security programmes provide a line of defence against malicious actors and cyberattacks. What does computer security look like in the nuclear world? Listen to 🎙️ #NuclearExplained to find out.
#Uranium, the fuel that enables nuclear power plants to generate electricity, is a heavy, dense and radioactive metal. This makes it a potent source of concentrated energy. More about uranium via #NuclearExplained ↪️ atoms.iaea.org/uranium
They're big and small, round and straight, they create and destroy—what are particle accelerators exactly? #NuclearExplained has the answers.
It is heralded as the energy source of the future, but what is nuclear #fusion? Let us tell you more ion #NuclearExplained. ↪️ atoms.iaea.org/NuclearFusionE…
☢️#Radiation: we're exposed to it everyday but what is it? Is it always bad for us, and what can we use ionizing radiation for? 🤔 🔍 Check out our #NuclearExplained for answers to all of your questions about radiation. 👉 atoms.iaea.org/3SJzmO4