Your eyes have a huge field of vision, but a very small field of true observation. As you read this comment, you can acknowledge there’s a whole paragraph of text, but can only read 3-6 letters at a time. So while you can notice things in a ~180 degree field of view, you’re only analyzing 1/2 degree at a time. Coincidentally, the moon is about 1/2 degree in apparent size. Your thumb nail is also about the same size at arm’s length.
A camera, on the other hand, is taking a snapshot of an entire field of view. As you look through a photo, you’re only analyzing the same 1/2 degree circle. If the photo is shrunk to fit, the moon is now much, much smaller than the original. If you zoom in on the pic to see the moon at the proper apparent size, you lose the other 99% of the picture - not unlike your actual useful view. Consider holding the phone up at arms length next to the moon as it shows the moon pic at life-scale. Your phone is effectively acting as a see through window - 6" wide and at arms length. See how little of the landscape is visible when actually scaled correctly? And even then, your phone is still about 15x wider than what your eyes can actually study at once. Hold your thumb out at arms length. Such a tiny amount of your field of view is obscured, yet it’s probably slightly larger than whay you can observe.
So ultimately, it’s not about special effects, lens compression, wide angle distortion, or anything like that. It’s all about having 2 very different formats for viewing the world without realizing the fundamental differences.
PS: you may see people claim a 50mm lens on a full-frame camera is “what the human eye sees” regarding field of view. That’s why it’s used for portraits and favorable for some other close up photography. Yet, it’s an awful combo for moon photography. It’s field of view is about what people use to comfortably take in a whole object or scene. It will frame a portrait to about conversation distance and other objects to about where we would normally stand from an object of interest. Still, to observe it in detail, it needs to be displayed fairly large, like a whole computer screen. A 1080 phone at normal distance will look nice but won’t quite match.
the real reason people say a 50 is “what your eye sees” is because of you put a 50mm lens on and look through the viewfinder on the camera there will be roughly no change in perspective. but yeah, this IS telephone compression, it’s just that telephoto compression is also just about changing perspective. you can get the same effect by walking closer or further and cropping. though, you can’t exactly walk any meaningful closer to the moon 😅. i really like the way you phrased the whole active focus vs whole field of view thing. I’m just being mildly pedantic.
I’ve definitely felt the same effect looking at landscapes in person, versus reviewing the same photo on my phone later. Basically an obvious comparison to be made between watching a cinematic movie in a giant theater, versus on that small screen.
I’m honestly curious why the moon looks bigger to the naked eye than my phone camera.
Your eyes have a huge field of vision, but a very small field of true observation. As you read this comment, you can acknowledge there’s a whole paragraph of text, but can only read 3-6 letters at a time. So while you can notice things in a ~180 degree field of view, you’re only analyzing 1/2 degree at a time. Coincidentally, the moon is about 1/2 degree in apparent size. Your thumb nail is also about the same size at arm’s length.
A camera, on the other hand, is taking a snapshot of an entire field of view. As you look through a photo, you’re only analyzing the same 1/2 degree circle. If the photo is shrunk to fit, the moon is now much, much smaller than the original. If you zoom in on the pic to see the moon at the proper apparent size, you lose the other 99% of the picture - not unlike your actual useful view. Consider holding the phone up at arms length next to the moon as it shows the moon pic at life-scale. Your phone is effectively acting as a see through window - 6" wide and at arms length. See how little of the landscape is visible when actually scaled correctly? And even then, your phone is still about 15x wider than what your eyes can actually study at once. Hold your thumb out at arms length. Such a tiny amount of your field of view is obscured, yet it’s probably slightly larger than whay you can observe.
So ultimately, it’s not about special effects, lens compression, wide angle distortion, or anything like that. It’s all about having 2 very different formats for viewing the world without realizing the fundamental differences.
PS: you may see people claim a 50mm lens on a full-frame camera is “what the human eye sees” regarding field of view. That’s why it’s used for portraits and favorable for some other close up photography. Yet, it’s an awful combo for moon photography. It’s field of view is about what people use to comfortably take in a whole object or scene. It will frame a portrait to about conversation distance and other objects to about where we would normally stand from an object of interest. Still, to observe it in detail, it needs to be displayed fairly large, like a whole computer screen. A 1080 phone at normal distance will look nice but won’t quite match.
the real reason people say a 50 is “what your eye sees” is because of you put a 50mm lens on and look through the viewfinder on the camera there will be roughly no change in perspective. but yeah, this IS telephone compression, it’s just that telephoto compression is also just about changing perspective. you can get the same effect by walking closer or further and cropping. though, you can’t exactly walk any meaningful closer to the moon 😅. i really like the way you phrased the whole active focus vs whole field of view thing. I’m just being mildly pedantic.
I’ve definitely felt the same effect looking at landscapes in person, versus reviewing the same photo on my phone later. Basically an obvious comparison to be made between watching a cinematic movie in a giant theater, versus on that small screen.
Different lenses in your eye and your camera change the focal length
The moon will look different to different cameras of different focal lengths, even