In a historic breakthrough, geologists have uncovered the world’s largest iron ore deposit in Western Australia’s Hamersley Basin, containing an estimated 55 billion metric tons of high-grade ore. Valued at over $6 trillion, this discovery could reshape the global mining landscape and solidify Australia’s dominance as a critical supplier of iron—the backbone of global infrastructure and steelmaking. This deposit isn't just massive; it’s also geologically surprising. Dating back 1.4 billion years, the find is younger than many existing formations, offering new insights into Earth’s mineralization processes. Economists believe this could stabilize global iron prices and support the steel industry for decades. Yet, the road to extraction depends on strict environmental evaluations and sustainable mining strategies to ensure this colossal opportunity doesn't come at a catastrophic cost. #IronOre #MiningNews #AustraliaResources #GlobalEconomy #GeologyBreakthrough

Reggie Miller shares his reaction to Tyrese Haliburton’s game winning shot on his IG Story.

Japan is planning one of the world’s most ambitious infrastructure projects—Ocean Spiral, a futuristic underwater city powered by the temperature gradients in ocean water. Designed by Shimizu Corporation, this conceptual city will include a floating sphere above the surface and a spiral structure plunging 4,000 meters into the deep sea, allowing humans to live, work, and even mine ocean-floor resources. Powered by Nature: It will harness Ocean Thermal Energy Conversion (OTEC) technology—an innovative method that generates electricity from the temperature difference between warm surface water and cold deep water. The City’s Promise: Fully self-sustaining energy Food production and seawater desalination Deep-sea exploration and rare metal extraction Disaster-resilient infrastructure If brought to life, Ocean Spiral won’t just be a city—it’ll be a blueprint for sustainable living in an age of climate and land challenges. #OceanSpiral #JapanInnovation #FutureCities #UnderwaterCity

Cozy up with this Creamed Cabbage and Ground Beef Casserole! This cheesy comfort dish is perfect for family dinners or chilly nights. #ComfortFood #CasseroleLove #EasyDinner #CheesyGoodness #GroundBeef Ingredients: - 1 pound ground beef - 1 small head of green cabbage, chopped - 1 medium onion, diced - 2 cloves garlic, minced - 1 cup heavy cream - 1 cup shredded cheddar cheese - 1 teaspoon paprika - 1 teaspoon salt - 1/2 teaspoon black pepper - 2 tablespoons olive oil - 1/4 cup grated Parmesan cheese Directions: 1. Preheat your oven to 350°F (175°C) and prepare a 9x13 inch baking dish by greasing it lightly. 2. In a large skillet, warm up the olive oil over medium heat. Toss in the diced onion and minced garlic, and sauté until the onions turn translucent and fragrant. 3. Add the ground beef to the skillet, breaking it apart as it cooks. Once browned, drain any excess fat if needed. 4. Stir in the chopped cabbage and let it cook for about 5-7 minutes, until it starts to soften. 5. Pour in the heavy cream, then sprinkle in the paprika, salt, and black pepper. Mix everything together and let it simmer for another 5 minutes. 6. Transfer the hearty mixture to your prepared baking dish, spreading it out evenly. 7. Top with shredded cheddar cheese and then sprinkle the grated Parmesan cheese over the top. 8. Pop it in the oven and bake for 25-30 minutes, or until the cheese is bubbly and turns a lovely golden brown. 9. Allow the casserole to cool for a few minutes before serving. Enjoy! Nutritional Values (per serving): - Serving Size: 1/6 of the casserole - Calories: 400 - Protein: 25g - Carbohydrates: 12g - Fat: 30g - Fiber: 2g This Creamed Cabbage and Ground Beef Casserole is not just delicious; it brings warmth and satisfaction to the table. Enjoy every cheesy bite!

Mars Is Spinning Faster — Thanks to NASA’s InSight Mission New data from NASA’s now-retired InSight lander reveals a surprising twist: Mars is gradually speeding up its rotation, shortening the Martian day by a tiny amount — about a fraction of a millisecond per year. What's causing this? Scientists are still investigating, but possible explanations include mass shifts at the polar ice caps or changes deep within the planet’s interior. Unlike Earth, which slows down due to the Moon’s influence on our oceans, Mars has no oceans — hinting at a completely different mechanism. These insights come from InSight’s RISE (Rotation and Interior Structure Experiment), which tracked subtle changes in radio signals between Mars and NASA’s Deep Space Network over 900 Martian days. The variations helped scientists measure the planet’s spin with extraordinary precision. More than just spin: The same data also refined our understanding of Mars’ core, confirming it has a large radius of about 1,835 km and a density between 5.9 and 6.3 g/cm³. Interestingly, the planet’s nutation (wobble) suggests that its core has uneven density, raising new questions about its internal structure. Why it matters: Though InSight’s mission ended in December 2022, its legacy lives on. The RISE experiment is considered historic, continuing to deepen our understanding of the Red Planet and its hidden depths. Published in: Nature (2023) Paper: Sébastien Le Maistre et al., “Spin state and deep interior structure of Mars from InSight radio tracking”