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In the current power scaling, Boros is classified as High 6-A based on the durability of his spaceship, which withstood the impact of Saitama's jump from the moon. Yet, Boros managed to destroy his throne room, which was described as extremely durable. Let’s analyze this in depth using principles of physics.
When Saitama jumped from the moon and landed on the ship, the energy he generated was distributed throughout the ship’s structure.
Conclusion:
Boros’s feat demonstrates how localized energy application and stress concentration can overcome even highly durable materials. This does not require Boros to generate as much energy as Saitama; rather, it highlights the efficiency of his energy usage. In contrast, Saitama’s energy, while immense, was distributed too widely to induce localized failure.
When Saitama jumped from the moon and landed on the ship, the energy he generated was distributed throughout the ship’s structure.
This process involves several key physical principles:
1. Energy Transmission in a System
When Saitama’s impact occurred, kinetic energy was transferred to the spaceship’s framework. However, this energy did not remain localized; instead, it was transmitted in the form of mechanical waves. These waves propagated through the ship's structure, spreading the energy over a larger volume.
2. Wave Attenuation (Damping)
As the mechanical waves travel, their intensity diminishes due to energy dissipation. This phenomenon, known as damping, occurs because some of the wave’s energy is converted into heat or absorbed by the material.
The result is that by the time the waves reached various parts of the ship, including the throne room, their intensity was significantly reduced.
3. Stress Distribution Across a Large Area
The energy of Saitama’s landing was distributed across the entire ship. The forces acting on any single structural element of the ship were significantly reduced due to the wide distribution. This lowered the localized stress on individual components, making catastrophic failure less likely despite the immense total energy involved.
In contrast, Boros’s destruction of the throne room involved a completely different mechanism. Instead of distributing energy, Boros concentrated his force onto a small area, leading to localized structural failure.
1. Stress and Strain Relationship
Stress is defined as the force applied per unit area:
Boros's attack applied force to a small, localized region of the throne room. This concentrated stress exceeded the material’s ultimate tensile strength (UTS), causing structural failure.
2. Localized Energy Application
Unlike Saitama, Boros did not rely on spreading his energy across the structure. Instead, he delivered his energy to a specific, small surface area. This approach allowed him to exploit the material’s weak points, inducing failure through localized overloading.
3. Material Response to High Stress
When the stress exceeds the material’s strength, it can fail through mechanisms such as cracking, shearing, or fracturing. This is true even for materials designed to withstand immense forces, as in the case of the throne room.
Counterarguments and Responses:
Q: Isn’t the throne room more durable than other parts of the ship?
A: While the throne room is indeed described as more durable, material failure occurs when stress exceeds the material’s strength, regardless of overall durability. Boros’s focused attack created stress levels beyond the material’s resistance, causing it to fail.
Q: Why didn’t Saitama’s energy cause significant damage?
A: Saitama’s energy was distributed across the entire structure. This wide distribution reduced the localized stress below the threshold needed to cause material failure.
Conclusion:
Boros’s feat demonstrates how localized energy application and stress concentration can overcome even highly durable materials. This does not require Boros to generate as much energy as Saitama; rather, it highlights the efficiency of his energy usage. In contrast, Saitama’s energy, while immense, was distributed too widely to induce localized failure.
Boros Scaling Tier: At least 7-C, possibly 6-C | At least 6-B, far higher with Energy Blasts | At least 6-B, High 6-A with Collapsing Star Roaring Cannon
Ap: At least Town level, possibly Island level (As the most powerful member of the Dark Matter Thieves, he should be superior to Melzargard, Groribas and Geryuganshoop) | At least Country level (Was considered strong by Saitama, although he couldn't answer whether Gouketsu was strong or not), far higher with Energy Bullets (Releases more energy from his body than his normal attacks. Turned a large portion of his spaceship to dust) | At least Country level (Combines the power of his strikes with the latent energy used for energy bullets, allowing a single hit from this state to cause as much damage as the energy bullet from his previous form. Saitama regarded him as almost being a real fight, later describing him as strong and maybe even the strongest person he'd ever faced at that point), Multi-Continent level with Collapsing Star Roaring Cannon (Expends all of his latent energy into an ultimate attack. Stated that this attack would be able to ruin the surface of Earth)
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