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astrorms
by Tim Allott
Beautiful lands.... Almost like a dream #land #photography #nature
Amazing trip through the stars ✨✨✨✨ #stars #galaxy #astronomy #trip
The majestic Moon. From Twitter @AJamesMcCarthy
There’s a reason lots of good parents say to babies stuff like
“You’re excited to go to the park!”
“Oh, it makes you mad that we can’t go outside.”
And then when the babies get a little bit older the parents can say
“You seem upset. Are you sad?”
“Are you excited that gramma is coming over today?”
Which lets the kid (who is learning to utilize speech) respond with yes or no, which may prompt more questions, like
“So you aren’t sad, are you angry?”
“Yes, does it make you happy when gramma is here?”
And then, finally, when the child is learning to use language in a more complex way, the parents can say,
“How does it make you feel?”
“Why are you feeling like that?”
And it’s all about teaching emotional awareness. I really reccomend using the process on yourself. Learn to ask, “am I happy?” “Am I sad?” “Am I anxious?”
Then practice identifying, out loud or on paper if you can, “I’m happy.” “I’m upset.” “I’m sad.” “I’m anxious.”
Final step: “Why am I feeling anxious? I’m still thinking about that awkward conversation earlier.” “Why am I happy? It’s such a beautiful day outside.” “Why am I sad? None of my friends are responding to my messages.”
It really helps you notice patterns (“I’m more likely to be happy when I’m around this person.” “When I haven’t eaten, I often feel angry.” “If I don’t plan ahead, I get anxious.”) which is the first step in avoiding things and people that are bad for you and encouraging things and people that are good.
Basically don’t forget that you’re just a baby who got more complicated.
Not sure how to articulate what you are feeling? Try starting at the middle and working your way out to the more specific feelings!
A lot of therapy I’ve been to has just been teaching me how to do exactly this
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Coronal mass ejection
A coronal mass ejection (CME) is a significant release of plasma and magnetic field from the solar corona. They often follow solar flares and are normally present during a solar prominence eruption. The plasma is released into the solar wind, and can be observed in coronagraph imagery.
Coronal mass ejections are often associated with other forms of solar activity, but a broadly accepted theoretical understanding of these relationships has not been established. CMEs most often originate from active regions on the Sun’s surface, such as groupings of sunspots associated with frequent flares. Near solar maxima, the Sun produces about three CMEs every day, whereas near solar minima, there is about one CME every five days.
Coronal mass ejections release large quantities of matter and electromagnetic radiation into space above the Sun’s surface, either near the corona (sometimes called a solar prominence), or farther into the planetary system, or beyond (interplanetary CME). The ejected material is a magnetized plasma consisting primarily of electrons and protons. While solar flares are very fast (being electromagnetic radiation), CMEs are relatively slow.
Coronal mass ejections are associated with enormous changes and disturbances in the coronal magnetic field. They are usually observed with a white-light coronagraph.
Impact on Earth
When the ejection is directed towards Earth and reaches it as an interplanetary CME (ICME), the shock wave of traveling mass causes a geomagnetic storm that may disrupt Earth’s magnetosphere, compressing it on the day side and extending the night-side magnetic tail. When the magnetosphere reconnects on the nightside, it releases power on the order of terawatt scale, which is directed back toward Earth’s upper atmosphere.
Solar energetic particles can cause particularly strong aurorae in large regions around Earth’s magnetic poles. These are also known as the Northern Lights (aurora borealis) in the northern hemisphere, and the Southern Lights (aurora australis) in the southern hemisphere.
Coronal mass ejections, along with solar flares of other origin, can disrupt radio transmissions and cause damage to satellites and electrical transmission line facilities, resulting in potentially massive and long-lasting power outages.
To learn more, click here.
Image credit: Alex Conu
Animation: Science Channel & NASA/Goddard
7 Things to Know about the Perseverance Mars Rover
We’re set to launch the Mars 2020 Perseverance rover mission from Cape Canaveral, Florida, on July 30. The rover is loaded with scientific instruments and advanced technology, making it the largest, heaviest and most sophisticated vehicle ever sent to the Red Planet.
What is Perseverance’s mission and what will it do on Mars? Here are seven things to know:
1. Perseverance draws on the NASA – and scientific – spirit of overcoming challenges
Not only does it have to launch during a pandemic and land on a treacherous planet, it has to carry out its science goals:
Searching for signs of past microbial life
Mapping out the planet’s geology and climate
Collecting rock and other samples for future return to Earth
Paving the way for human exploration
We chose the name Perseverance from among the 28,000 essays submitted during the “Name the Rover” contest. Because of the coronavirus pandemic, the months leading up to the launch in particular have required creative problem solving, teamwork and determination.
2. Perseverance builds on the lessons from other Mars rovers
In 1997, our first Mars rover – Sojourner – showed that a robot could rove on the Red Planet. Spirit and Opportunity, which both landed in 2004, found evidence that Mars once had water before becoming a frozen desert.
Curiosity found evidence that Mars’ Gale Crater was home to a lake billions of years ago and that there was an environment that may have sustained microbial life. Perseverance aims to answer the age-old question – are there any signs that life once existed on Mars?
3. Perseverance will land in a place with high potential to find signs of ancient life
The rover will land in Jezero Crater, a 28-mile wide basin north of the Martian equator. A space rock hit the surface long ago, creating the large hole. Between 3 and 4 billion years ago, a river flowed into a body of water in Jezero the size of Lake Tahoe.
4. Perseverance will also collect important data about Mars’ geology and climate
Mars orbiters have collected images and other data about Jezero Crater from about 200 miles above, but finding signs of past life will need much closer inspection. A rover like Perseverance can look for those signs that may be related to ancient life and analyze the context in which they were found to see if the origins were biological.
5. Perseverance is the first leg of a round trip to Mars
This is the first rover to bring a sample-gathering system to Mars that will package promising samples of rocks and other materials for future return to Earth. NASA and ESA are working on the Mars Sample Return campaign, so we can analyze the rocks and sediment with tools too large and complex to send to space.
6. Perseverance will pave the way for human exploration of the Red Planet
Two packages – one that helps the rover autonomously avoid hazards during landing (TRN) and another that gathers crucial data during the trip through Mars’ atmosphere (MEDLI2) – will help future human missions land safely and with larger payloads on other worlds.
There are two instruments that will specifically help astronauts on the Red Planet. One (MEDA) will provide key information about the planet’s weather, climate and dust activity, while a technology demonstration (MOXIE) aims to extract oxygen from Mars’ mostly carbon-dioxide atmosphere.
7. You get to ride along
Perseverance and other parts of the Mars 2020 spacecraft feature 23 cameras, which is more than any other interplanetary mission in history. Raw images from the camera are set to be released on the mission website.
There are also three silicon chips with the names of nearly 11 million people who signed up to send their names to Mars.
And you can continue to follow the mission on Twitter and Facebook.
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com
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