How do we measure the rotation speed of a planet? Exactly as you would expect. Watch the surface, look for markable features, and time how long it takes until those features pass the same point again in the future. But how can we possibly nail down this information when the planet has little to no visible surface features. Gas giant planets are great examples of this. Jupiter is a bit easier since it has plenty of storms and separated cloud layers along the planet’s rotation axis, but the other three are much tougher. Aside from hard-to-spot features, gas giants also...
Aurora Borealis (Northern Lights) and Aurora Australis (Southern Lights) are the most beautiful result of the Earth protecting us from a horrible death by solar radiation. Every time I see it, I marvel in the beauty and remind myself that I am still safe from being cooked by that giant ball of gas that is responsible for fundamentally fuelling all life on Earth. So when we have a lot of auroral activity, I pop over to spaceweather to see if it will be visible from where I live. Though it usually isn’t, today’s aurora are potentially visible, so I might...
After reaching a deeper understanding of the subsurface ocean of Enceladus just yesterday, a stunning discovery has just been made about the largest Moon in the solar system. The largest moon of Jupiter, Ganymede, contains a subsurface ocean of it’s own. The discovery was made with the Hubble space telescope and a careful study of aurora on the giant moon. That’s right Ganymede has auroral activity. This is because it is the only moon in the solar system with a magnetic field. The magnetic field funnels radiation from the Sun toward the north and south poles, where it ionizes molecules...
Have you ever heard of the Van Allen belts? If not you really should learn about them. After all, without them the majority of life on Earth could not survive. So what are they and how do they keep us alive? The Van Allen Belts are a collection of charged particles, held in place by the magnetic field of Earth, that act as a barrier to prevent the most harmful radiation from the Sun from reaching the surface of the Earth. They shift according to the incoming energy of the Sun, and if there is a large enough swell of...
The seventh planet from the Sun is a boring one. The best photos we have of Uranus were obtained in January 1986 during the passing of Voyager 2, and they revealed a cold, pale-green, ball of Methane four times the diameter of Earth with very little visible activity. Since then, we’ve learned a lot about Uranus, and it’s far more interesting than we thought. It has rings, a magnetosphere, and numerous moons. It has a 98 degree axial tilt, meaning that the poles of the planet cycle through 42 years of sunlight and 42 years of darkness during it’s 84...
Twenty Years of exoplanet research has seen incredible advances in detecting planets orbiting distant stars, as well as their size, orbit period, orbit distance, and even atmospheric composition. But the next step in understanding exoplanets is to learn about their magnetic fields. We know that many exoplanets should have magnetic fields. It makes sense, since nearly every world in our own solar system has some sort of magnetism. But for the first time, an international team of Astronomers, led by Kristina Kislyakova of the Space Research Institute of the Austrian Academy of Sciences, have discovered a way to detect magnetic fields...
The sun is definitely hitting its usual ‘rebellious’ phase on its 11 year sunspot cycle, where it flares up at literally everything. The biggest sunspot observed in 24 years has been releasing huge amounts of energy, in the form of X-class solar flares. In the past week this sunspot, designated AR 12192, has released 3 X-class flares, including a huge X-3.1 on Friday. NASA’s Solar Dynamics Observatory (SDO) has been watching the light show. Okay so the Sun is blowing up, what does all this mean? Let’s start with Sunspots. A sunspot is a place on the sun where there...