WHAT DOES THE INSIDE OF EARTH LOOK LIKE?
Earth's crust is made of rock. Then going deeper we've got this huge expanse that we call the mantle. That's solid, rock-like material, but it's under high pressure and high temperature, so it's different to the rocks that you would find if you wandered out into a park. Beneath the mantle, we get into Earth's deepest regions, near the core. There, we leave the rocks behind and enter a world made of metal, specifically iron.
That metal ended up there because iron is heavy compared to rock. So that density contrast has put most of Earth's iron into this big ball at the centre. We're talking about a huge ball that's about half of Earth's radius and made of metal. But we can also split that core into two more distinct chunks. We have the outer core, which is made of molten metal that's roughly as runny as water. Then, in the middle of Earth, we've got the solid inner core, which has a radius about a fifth that of Earth.
HOW DO WE STUDY CHANGES OCCURRING WITHIN EARTH'S CORE?
We have a variety of techniques to make what we call 'indirect observations'. No hole that has been dug is deep enough to help. The deepest-ever hole was slightly over 12km deep. For us to reach the inner core, we'd need to go down thousands and thousands of kilometres, and we certainly have no samples from there.
Seismologists look at a record of an earthquake wave that has passed right through the rocky mantle, the liquid outer core, into the inner core, and then has come all the way back out and onto the far side of the planet.
Then they try and look for another earthquake that happened as close as possible to that first one and was detected by exactly the same seismometer some years later.
ãã®èšäºã¯ BBC Science Focus ã® March 2023 çã«æ²èŒãããŠããŸãã
7 æ¥éã® Magzter GOLD ç¡æãã©ã€ã¢ã«ãéå§ããŠãäœåãã®å³éžããããã¬ãã¢ã ã¹ããŒãªãŒã9,000 以äžã®éèªãæ°èã«ã¢ã¯ã»ã¹ããŠãã ããã
ãã§ã«è³Œèªè ã§ã ?  ãµã€ã³ã€ã³
ãã®èšäºã¯ BBC Science Focus ã® March 2023 çã«æ²èŒãããŠããŸãã
7 æ¥éã® Magzter GOLD ç¡æãã©ã€ã¢ã«ãéå§ããŠãäœåãã®å³éžããããã¬ãã¢ã ã¹ããŒãªãŒã9,000 以äžã®éèªãæ°èã«ã¢ã¯ã»ã¹ããŠãã ããã
ãã§ã«è³Œèªè ã§ã? ãµã€ã³ã€ã³
NOW YOU SEE ME, NOW YOU DON'T
Scientists around the world are working on ways to hide us from sight. But how close are we to developing tech that could make us invisible?
UNCORKED POTENTIAL
How much good can ditching drink for a month really do? Answer: a whole lot. In fact, science shows even short-term abstinence could unlock a cocktail of lasting benefits
Scientists discover when humans and dogs became friends
The relationship spans thousands of years, but experts might have pinpointed the first connection
Why it's so hard to kick a gambling addiction
We now know that gambling can be as addictive as drugs, but there are factors that can make it even harder to quit
How much could Ozempic change our world?
The weight-loss drug has made headlines and broken sales records, but what does it mean for our future?
WHY DOES DRINKING ALCOHOL MAKE IT SO MUCH HARDER TO LOSE WEIGHT?
While enjoying the occasional glass of wine or pint of beer may seem harmless, regular or excessive alcohol consumption can significantly hinder your weight-loss journey for a few reasons:
Why do so many New Year's resolutions fail?
Establishing positive new habits is hard at any time of year. But there are ways to stop your attempts ending in failure
'Extreme' solar radiation storm could hit Earth
Sun-like stars may have tantrums far more frequently than we thought
HOW CAN I BANISH THE JANUARY BLUES?
Dark mornings, long chilly evenings and short days; many people find January tough.
Neutrinos are getting in the way of dark matter detection
These troublesome particles are difficult to detect, but they're starting to show up in places where they're not wanted
