The brightest star in the sky is not the North Star (Polaris). If you follow the brightest star in the sky you will follow a planet and travel some curved path.
I always struggled with that, too, until my cousin taught me to use Cassiopeia. The other constellations use way too complex of shapes and require accuracy, and they’re not super-bright.
Cassiopeia looks like a W or M. Look for 5 dots that could possibly form an ugly W where the left side is wider and more shallow than the right. It’ll genuinely stand out like this.
There it is!
Now, mentally draw a straight line across the tips of the shallow side of the W. Then, draw a straight line through that starting from the bottom of the shallow side. You’ll get something like an arrow shape. Keep following that perpendicular line away from the W until you find something nearby the line that is noticeably bright. That’s Polaris!
After you find that, you can confirm you found the right star by looking for the dippers and shit.
Great question! Use https://stellarium-web.org/ and set it for your latitude or location, according to your preference, and then look toward the northern sky. You can set the app to highlight the constellations.
Live somewhere dark enough and gain pattern recognition
Edit: This was kind of unhelpful, so I’ll also recommend Stellarium. The Big Dipper is comprised of very bright stars, and is visible in the northern hemisphere year-round, so it’s a good first constellation to learn. Once you get used to how it looks both on stellarium and in the night sky, you’ll be better equipped to extrapolate how other constellations should look in the night sky, given how they look on stellarium. Once you start building those neural pathways, it gets a lot easier.
I realize this is basically just “git gud” but for astronomy, but it really is a matter of experience, not skill
The brightest star in the sky is not the North Star (Polaris). If you follow the brightest star in the sky you will follow a planet and travel some curved path.
How to really find Polaris:
Cool, now how do I find those thingies?
I always struggled with that, too, until my cousin taught me to use Cassiopeia. The other constellations use way too complex of shapes and require accuracy, and they’re not super-bright.
Cassiopeia looks like a W or M. Look for 5 dots that could possibly form an ugly W where the left side is wider and more shallow than the right. It’ll genuinely stand out like this.
There it is!
Now, mentally draw a straight line across the tips of the shallow side of the W. Then, draw a straight line through that starting from the bottom of the shallow side. You’ll get something like an arrow shape. Keep following that perpendicular line away from the W until you find something nearby the line that is noticeably bright. That’s Polaris!
After you find that, you can confirm you found the right star by looking for the dippers and shit.
Meh, looking for the dippers always worked for me. You put a lot of thought into this.
Look up
Great question! Use https://stellarium-web.org/ and set it for your latitude or location, according to your preference, and then look toward the northern sky. You can set the app to highlight the constellations.
Live somewhere dark enough and gain pattern recognition
Edit: This was kind of unhelpful, so I’ll also recommend Stellarium. The Big Dipper is comprised of very bright stars, and is visible in the northern hemisphere year-round, so it’s a good first constellation to learn. Once you get used to how it looks both on stellarium and in the night sky, you’ll be better equipped to extrapolate how other constellations should look in the night sky, given how they look on stellarium. Once you start building those neural pathways, it gets a lot easier.
I realize this is basically just “git gud” but for astronomy, but it really is a matter of experience, not skill
I mean besides Venus, Polaris is not even the brightest real star. (Its Sirius)