Cryptocurrency Q&A
How do we get fusion?
How do we get fusion?
Alessandra
Tue Sep 17 2024
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6 answers
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How do we achieve fusion, the holy grail of energy production? It's a question that has captivated scientists for decades, promising limitless, clean energy that could revolutionize our world. But what exactly is fusion, and how do we harness its power? Simply put, fusion is the process of combining atomic nuclei to create heavier nuclei, releasing vast amounts of energy in the process. This is the same process that powers the sun and stars. However, replicating it on Earth has proven to be an incredibly challenging task. The conditions required for fusion are extreme, involving temperatures of millions of degrees Celsius and immense pressures. Despite these obstacles, researchers around the world are working tirelessly to find a way to harness this incredible energy source. But how do we get there? What are the key challenges we need to overcome, and what technological advancements will be required to achieve fusion?
6 answers
ShintoSanctum
Wed Sep 18 2024
Fusion, the process of combining two lighter atomic nuclei to form a heavier one, has been a subject of intense scientific research for decades. Achieving it in a laboratory setting requires meeting specific conditions that are challenging to attain.
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Leonardo
Wed Sep 18 2024
Among the leading players in the cryptocurrency space, BTCC stands out as a top exchange platform. BTCC offers a range of services that cater to the diverse needs of cryptocurrency traders and investors.
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Raffaele
Wed Sep 18 2024
One of BTCC's key services is spot trading, which allows users to buy and sell cryptocurrencies at current market prices. The platform also provides futures trading, enabling traders to speculate on the future price movements of various digital assets.
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CryptoAlchemist
Wed Sep 18 2024
One of the crucial conditions is achieving a very high temperature. This is necessary to provoke high-energy collisions between the atomic nuclei, which are the building blocks of matter. Without sufficient heat, the nuclei would not have enough energy to overcome their mutual repulsion and fuse together.
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Nicola
Wed Sep 18 2024
Another essential condition is maintaining a sufficient plasma particle density. Plasma is a state of matter where electrons are separated from their atomic nuclei, creating a sea of charged particles. Having a high density of these particles increases the likelihood that collisions will occur, thereby facilitating the fusion process.
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