(DeepSeek logo, January 28th)

(Small discussion on Deepseek AI, January 28th)

Recently downloaded the latest Chinese AI DeepSeek, to precipitate the US tech stock market reevaluation. It appears Nvidia is not liking it. Just don’t ask our friend “Deep” about Tiananmen.  

(Google’s Nvidia share prices tracker, January 28th)

I have to admit though that accuracy wise, DeepSeek seems to be better than ChatGPT (bear in mind i have the 4o version). The prompt I usually ask those models are a mix of both humour, reasoning and simple calculations. If you are stuck in 2015 internet like I am, you would remember the “Sun VS 1 billion Lions” meme. Well thats my prompt right there, let see how the two models answer: 

DeepSeek offers a more thorough, fun approach at a much faster speed whereas GPT took longer to come up with a bland answer. 

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DeepSeek answer: 

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Ah, the age-old question: **the Sun vs. a billion lions**! 🌞🦁 Let’s break this down scientifically (and humorously) to determine who would “win.”

### **Round 1: Size and Scale**  

– **The Sun**:  

  – Diameter: ~1.39 million km  

  – Mass: ~1.989 × 10³⁰ kg  

  – Surface temperature: ~5,500°C  

  – Core temperature: ~15 million°C  

– **A Billion Lions**:  

  – Average weight of a lion: ~190 kg  

  – Total mass: 1 billion × 190 kg = 1.9 × 10¹¹ kg  

  – Combined length: ~2.5 meters per lion × 1 billion = 2.5 billion meters (2.5 million km)  

**Winner**: The Sun. A billion lions, while impressive, are utterly dwarfed by the Sun’s sheer size and mass.  

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### **Round 2: Environmental Conditions**  

– **The Sun**:  

  – Gravity: 28 times Earth’s gravity  

  – Radiation: Intense solar radiation and plasma storms  

  – Atmosphere: None—just a fiery plasma surface  

– **Lions in Space**:  

  – Lions cannot survive in the vacuum of space.  

  – Even if they could, the Sun’s gravity would pull them in, and they’d be vaporized instantly upon contact with the Sun’s surface.  

**Winner**: The Sun. Lions are not spacefaring creatures.  

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### **Round 3: Combat Capabilities**  

– **The Sun**:  

  – Emits enough energy every second to power Earth for 500,000 years.  

  – Can unleash solar flares and coronal mass ejections (CMEs) that would obliterate anything in their path.  

– **A Billion Lions**:  

  – Sharp claws and teeth, but no way to reach the Sun.  

  – Even if they could, their attacks would be meaningless against a star.  

**Winner**: The Sun. Lions can’t bite plasma.  

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### **Round 4: Longevity**  

– **The Sun**:  

  – Expected lifespan: ~10 billion years (currently ~4.6 billion years old).  

– **A Billion Lions**:  

  – Lifespan: ~10–14 years in the wild.  

  – Without food, water, or oxygen, they’d perish almost immediately in space.  

**Winner**: The Sun. It’s got billions of years on the lions.  

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### **Final Verdict**  

The Sun wins, no contest. A billion lions are no match for a star that could vaporize them before they even get close. 🌞🔥  

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But hey, if you want to imagine a billion lions *somehow* surviving in space and forming a giant lion megazord, that’s a fun thought experiment! Let me know if you’d like to explore that. 😄🦁✨

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ChatGPT 4o answer: 

The Sun would easily “win” against a billion lions for several reasons, rooted in the physics of stars versus terrestrial creatures. Let’s break it down:

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1. The Sun’s Scale

• Mass: The Sun has a mass of 1.989×10301.989 \times 10^{30} kg, compared to a billion lions collectively weighing about 5×10115 \times 10^{11} kg (assuming an average lion mass of 500 kg each).
• Size: The Sun’s diameter is about 1.39×1061.39 \times 10^6 km, vastly larger than Earth or any collection of lions.

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2. Energy Output

• The Sun releases 3.8×10263.8 \times 10^{26} watts of energy every second through nuclear fusion. This is enough to vaporize or incinerate all the lions instantly.

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3. Environment

• Temperature: The Sun’s surface temperature is around 5,500°C (9,932°F), and its core reaches 15 million °C. Any lion, even the hardiest, would be reduced to atoms long before reaching the Sun’s surface.
• Gravitational Pull: The Sun’s immense gravity (28 times that of Earth’s) would crush the lions long before they reached its surface.

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4. Realistic Scenario

• A billion lions collectively wouldn’t have any way to interact with or harm the Sun. Even if they somehow formed a cohesive mass and were launched toward the Sun, they would disintegrate due to radiation, heat, and gravitational forces.

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Conclusion

The Sun would obliterate a billion lions effortlessly. It’s not even close—this is more like asking if a mountain would win against a feather in a contest of strength. The Sun is a literal star; lions are majestic but terrestrial creatures bound by earthly limits. 🌞 🦁

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