The International Space Stations astronauts are constantly on the lookout for signs of distress.
One of those signs is a tiny, bright yellow dot hovering above the astronauts cabin.
The tiny dot is called a solar flare, and it’s one of the ways astronauts keep their eyes on the road ahead.
Astronauts can send a message to the International Astronomical Union (IAU) by using a specially-made spacecraft to send out a flare.
This flare is so small, it only emits a light-like radiation of some 30 milliwatts (about 1,000 times less than a cellphone).
But it’s so powerful, and the light so bright, that it can send signals to other spacecraft that are circling the sun, which is why astronauts send out flares on a regular basis.
Astronaut James Webb, for instance, has been sending out flares for the last three years.
In this video from March 2016, he and NASA astronaut Scott Kelly discuss how they’re monitoring the sun.
In addition to the flares, there are several other signals that can be sent out by astronauts.
For example, astronauts can send out their own flares.
A NASA video from October 2017 shows Webb and Kelly using a satellite to send a signal to a spacecraft orbiting the sun from a distance of about 3,000 kilometers.
This is an area of the solar system that has not been explored yet.
The sun has been the subject of some speculation about how it will behave in the future.
For instance, a group of astronomers recently published a study that said the sun could reach a maximum solar flare rate of 1.3 per second (one second per day).
Scientists don’t know how long that rate will last or whether it will increase or decrease as the solar cycle continues.
The most recent solar flare happened on March 9, 2023.
NASA is monitoring the solar activity and activity trends and the number of flares that occur each day.
These two observations give us an indication of what will happen during the solar maximum and the solar minimum, which are the time periods when the sun is most active.
For a solar max, the sun’s energy output is much greater than the suns average brightness, which means it is burning up material more than its sunspot number (the number of suns) allows.
At a solar min, the amount of sunspot material being burned is less than the amount being burned during a max, and a solar maximum lasts for about a month.
What’s more, the solar max lasts for an average of 6.7 years, which doesn’t include the time the sunspots are active.
If you’re traveling on a spacecraft, it’s important to be aware of all the signals that could be coming your way.
If something doesn’t go well, there’s nothing you can do about it.
In order to keep your eyes on that road ahead, you need to know where to look.
To get you in the right frame of mind, the best way to look for signs is to look around you.
The best way is to see something, like a small dot or a flare, that is visible to the naked eye.
The more you see, the more you realize what’s going on.
But there are a few things you can’t see in the dark, so you need a good telescope or binoculars.
And if you’re looking in a dark location, be sure to be sure that you’re actually looking at something, because it’s hard to tell what is real and what isn’t.
To make sure you’re not getting in the way of any of the signals, it might be best to try to focus on one of those little dots.
When you do that, you can look around and see if there are other signs around you that you can use to spot potential trouble spots.
Astronomers also use a method called “oblique vision” to help them pick out things in the environment.
This technique is used to spot signs and objects that are hidden by clouds, objects that aren’t visible in the same way, or objects that appear to be floating in the air.
If your eyesight is good, this is probably the best time to look at something that’s floating in an object.
If it’s floating on the ground, or if there’s something that looks like it could be floating on top of the object, you should definitely look for that as well.
For these reasons, astronomers say it’s always a good idea to wear eye protection while looking for signs.
It also helps to be careful of looking at objects that may be moving, such as a car or airplane, so that you don’t inadvertently damage them.
Another way to find things is by looking for the objects that can’t be seen by the naked eyes.
The way to do this is by taking a picture of the spot that you want to find.
Astronomical objects are a lot smaller than things in our world, and so it’s easier to find them by looking with your naked eye, but if you do