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$62.5 trillion per gram
- In the realm of valuable materials, antimatter stands as a unique and astronomical outlier. Priced at a staggering $62.5 trillion per gram, its value not only surpasses that of rare minerals like diamonds or gold but also dwarfs the entire global economy, estimated at around $100 trillion.
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Feb 19, 2023 · It's the most expensive substance on Earth, costing quadrillions of dollars for a single gram. It's also likely the most explosive substance on the planet.
Nov 10, 2023 · Antimatter is the mirror image of matter, valued at trillions per gram, and holds the key to revolutionary energy sources and medical advancements. Learn about its production, challenges, and applications in this article from YourStory.
Nov 15, 2022 · The cost of 1 gram of antimatter is about 62.5 trillion dollars (around 5,000 billion Indian rupees). The most expensive material on Earth, antimatter, is not found in nature but can only be prepared in a lab. The antihydrogen made in CERN’s laboratory only amounted to a mass of about 1.67 nanograms.
Feb 22, 2024 · Antimatter is a rare and expensive substance that holds immense value for its scientific significance and energy potential. Learn how antimatter is produced, stored, and used for research, space exploration, and medical applications.
In modern physics, antimatter is defined as matter composed of the antiparticles (or "partners") of the corresponding particles in "ordinary" matter, and can be thought of as matter with reversed charge, parity, and time, known as CPT reversal.
Apr 9, 2020 · Learn how antimatter is created, why it is so expensive, and what it can do. Antimatter is the simplest form of matter, antihydrogen, and it costs about $62.5 trillion per gram to produce.
The cost of antimatter. The efficiency of antimatter production and storage is very low. About 1 billion times more energy is required to make antimatter than is finally contained in its mass. Using E = mc 2, we find that 1 gram of antimatter contains: 0.001 kg x (300,000,000 m/s) 2 = 90,000 GJ = 25 million kWh.
