Hello sir , I have a few questions that could make for an interesting future video if you're interested. It's about nuclear weapons and their blast mechanics. 1. When we see a nuclear blast in videos, there's an initial bright flash, followed by a sudden dimming, and then glowing, point-like shredded pieces scattering around before the brightness intensifies again. What's happening in this process? 2. In fission weapons, the blast intensity increases exponentially due to a chain reaction, where each fission event releases multiple neutrons that cause further reactions, rapidly escalating the energy release. But in fusion weapons, which are said to be more destructive than fission, how does the rate of energy release compare? Is it even more rapid? Would it follow a steeper exponential curve, or perhaps something like a factorial growth? 3. Antimatter weapons are purely theoretical at this point, but their potential blast mechanics are intriguing. How would an antimatter explosion compare to fusion or fission in terms of energy release patterns? If this isn't your area of expertise, that's totally fine, but I'd love to hear your thoughts or see a video on this in the future.
This is something that I am interested in, it seems like something very important to understand.
Hello sir , I have a few questions that could make for an interesting future video if you're interested. It's about nuclear weapons and their blast mechanics.
1. When we see a nuclear blast in videos, there's an initial bright flash, followed by a sudden dimming, and then glowing, point-like shredded pieces scattering around before the brightness intensifies again. What's happening in this process?
2. In fission weapons, the blast intensity increases exponentially due to a chain reaction, where each fission event releases multiple neutrons that cause further reactions, rapidly escalating the energy release. But in fusion weapons, which are said to be more destructive than fission, how does the rate of energy release compare? Is it even more rapid? Would it follow a steeper exponential curve, or perhaps something like a factorial growth?
3. Antimatter weapons are purely theoretical at this point, but their potential blast mechanics are intriguing. How would an antimatter explosion compare to fusion or fission in terms of energy release patterns?
If this isn't your area of expertise, that's totally fine, but I'd love to hear your thoughts or see a video on this in the future.
Thank you for your suggestion. I will consider this for a future video.