Facts for Kids

Tennessine is a super cool element on the periodic table! 🧪

It has the symbol Ts and the atomic number 117. Tennessine is named after the U.S. state of Tennessee, honoring the many scientists from that area. This element is really rare and was first created in a lab, so you won’t find it in nature. Tennessine belongs to a group of elements called halogens, which also includes fluorine and chlorine. It’s important for scientists to study elements like tennessine to learn more about how matter interacts in the universe! 🌌

Tennessine was discovered in 2010 by a team of Russian and American scientists. 🧑

‍🔬👩‍🔬 They worked together at the Joint Institute for Nuclear Research in Dubna, Russia, and Oak Ridge National Laboratory in Tennessee, USA. They made tennessine by smashing atoms of curium with calcium ions. The name was officially chosen in honor of the state of Tennessee in 2016! Isn't that nice? 🎉

This teamwork shows how scientists from different places can come together to explore the world of elements!

Did you know tennessine is one of the heaviest elements ever created? 🏋

️ It’s super cool that it was named after a state in the USA, Tennessee, making it part of history! Tennessine is so rare that scientists may only create a few atoms at a time. 🌌

Also, its half-life is very short, less than a millisecond, so it disappears quickly! How fascinating is that? 🎉

This element might seem mysterious now, but it helps scientists understand more about the building blocks of everything around us!

Right now, tennessine doesn’t have any known practical uses because it’s so rare and unstable. ❌

However, scientists believe studying tennessine can help us understand more about the behavior of heavy elements. 🔬

In the future, it might lead to new discoveries in the world of chemistry! Learning about tennessine and other super-heavy elements can help scientists develop new materials or medicines. So, even if we don’t use it today, it can spark new ideas for the future! ✨

Because tennessine is so rare, scientists produce it in laboratories rather than find it in nature. 😮

They create it by firing particles at heavier elements like curium (atomic number 96). This process can be tricky and really expensive! 🏷

️ After creating tennessine, it exists only for a tiny fraction of a second before turning into other elements through radioactive decay. This means it’s hard to collect and study. The special locations for making it are usually big research facilities with advanced equipment like particle accelerators.

Scientists are still learning about tennessine and its behavior! 🔬

Future research aims to discover more about how it interacts with other elements and its possible applications. Exciting experiments are planned to learn about its properties further. Researchers hope to find out if tennessine can be used in different ways, such as for technology or new compounds. With advancements in technology, who knows what we might uncover about tennessine in the future? The world of science is full of surprises! 🎈

Tennessine is radioactive, which means it can be harmful in large amounts! ⚠

️ This is why scientists handle it very carefully and have special rules for safety in labs. It’s good to remember that being exposed to radioactive materials can harm people and the environment! 🌍

That’s why researchers wear protective equipment and work in controlled environments when studying elements like tennessine. Health and safety are important, especially when it comes to learning about new materials!

Tennessine is a very heavy element, and scientists think it may be very different from other halogens like iodine! 🏋

️ The exact physical properties are not very well-known because it’s so rare, but researchers predict it might be a solid at room temperature. It could even be a metal-like element. However, since it has a short lifespan and breaks down quickly, scientists can’t study it for long. Its chemical properties might also be unique, making it essential for learning about heavier elements! 🔍

Tennessine is located at number 117 on the periodic table! 📊

It is part of Group 17, which is the halogens group. This means it shares some similarities with other halogens like fluorine, chlorine, bromine, and iodine. The periodic table is like a big family tree for elements, showing how they are related to each other. 🌳

Scientists organize elements by their atomic number and properties, so understanding tennessine helps us see how elements interact with one another in nature!