Does sensor size affect aperture? The TRUTH about CROP FACTOR.

Before anyone's head explodes from my assertion (that is tricky to understand, granted) that larger sensors let in more light so improve image quality, but that exposure is not affected by sensor size, I'll explain it here, as the video was getting long. Consider the analogy that photons of light are like raindrops (they are in many ways). If you have two empty pools in your backyard, one adult-sized and a kiddy pool, after a rainstorm you will notice two things. One, that the larger pool collected more water in total and that two, the depth of the water is the same regardless of pool (sensor) size. In camera sensors, low light noise performance is a function of total light (photons, raindrops) collected while exposure is a function of light intensity (the depth of the water in the pool). Hope that helps.

I always watch videos of people trying to explain crop factor. Often they are over simplified, over complicated, missing key points, have wrong information, and/or overly opinionated. But this video is probably the best explanation I have seen in years.

You said it right. Don’t fuss about what gear you wish you had but rather learn and master how to get the best pictures with the gear you do have. I used to fuss about MegaPixels a lot until I watched so many of your videos. Same gear but I’ve upped my photography.

Thanks, Simon. For the small amount of paid work I do now that I am retired, depth of field is king. As a retired EE, I kind of backed into a second career photographing electrical equipment failures due to my connections in the industry. As such, I find micro 4/3 the easiest way to get the deep depth of field which is desirable in these cases. No artistic interpretation wanted in this use case! I use different sensor sizes for personal work, so as always, match the tool to the end goal. Really enjoy your videos.

The respectful way you communicate information makes you the best photographer/educator on UA-cam in my opinion.
Thank you for helping lots of people and doing what you love for a living, Simon!

This is another video that shows how fundamental your knowledge is and how good Simon is able to explain things, that so many other people have already explained - Simon explains is best! He really does. Not only in words, but in illustrations too.

I appreciate this video. I feel that the online photography (or gear?) community is letting newcomers down, pushing everyone to invest in gear they might need, instead of encouraging them to enjoy and improve their photography.
I've been shooting with both APS-C, full frame, and now MFT, and I've tried out five different brands, starting with Canon (DSLRs, 800D and 80D), Fujifilm (XT3), Nikon (Z5), and now a Panasonic G9 and Olympus Om-D E-m5 III.
I'm shooting documentary, architecture, and portraits. What I've learned is that the sensor size matters less, but for each of these genres other things have been much more crucial, from having a compact camera and lenses, to have something that is easy to bring with me (which offers flexibility), and lighting. Any of the cameras/brands I've been using would suffice for most of it, but I settled with MFT for the following reasons:
It's compact. True, the G9 is the same size as most full frame cameras, but the lenses are smaller. And the G9 is one of the largest MFT cameras to be found. Most MFT cameras are small and compact, while offering great features, particularly when it comes to stabilization.
It offers flexibility. Because it's so compact and less heavy, I am able to bring much more gear with me. Not only when it comes to lenses (I literally bring a 7.5mm lens, a 15mm lens, and a 45mm lens (15mm, 30mm, and 90mm respectively in full frame terms) with me not taking more space than my 35mm f1.8 Nikon lens did. When I'm out doing larger projects I can easily bring both my cameras with me, zoom lenses covering the 24mm to 600mm range, as well as tripod, filters and even my drone. I don't have to consider whether I want to cover this or that end of the focal range, or whether I should bring zooms or primes, in worst case scenario I just put one of the primes in my pocket.
It's cheaper. I'm not professional so the budget is limited. When I sold my full frame gear I got rid of a Nikon Z5 and five lenses, which didn't cover all ranges. For that money I got two cameras, covering all my needs, as well as seven lenses covering focal lengths from 15mm to 600mm.
Great features. Both cameras have amazing IBIS. There are a lot of features that I still haven't been able to use yet, but I have so much more options to be creative than I had with my Z5, which as new costs the same as the G9. I don't have to bring my tripod with me because the IBIS is so much better than the Z5 (even though the IBIS in the Z5 is good, just not as good). The IBIS is better because of the smaller sensor size, making it easier to stabilize the sensor.
Video. The Panasonic G9 is an amazing video camera, even today.
What I know that I had to give up:
The "better image quality". Full frame sensors do offer better image quality, but not much and not so much as being an issue for me. Again, it really depends on what you are doing, but if you're not earning money from your photography and you know the technicalities, then you really don't get "better image quality" with a full frame camera to the extent that it's worth it. And since most newer MFT cameras have high resolution options the higher pixel count of full frame sensors aren't that crucial. To be honest, I have an easier time to edit my Nikon raw files than my Oly or Panasonic raw files, and I can push them further, but I rarely have to do so, and knowing that I can do multiple exposures or high resolution shots basically mean I end up being able to do the same with those files, I just have to take one extra step.
I won't be able to reach the same depth of fields shot as I did with my full frame camera. This can be an issue in very rare cases, but I don't miss it. Whenever I do portraits, I would always stop down to f5.6 or f8 anyway, in order to make sure that everything is in focus. Sure, the beautiful artistic shots where the in focus smoothly runs out of focus is hard to obtain, but not impossible. I am going to invest in an f0.9 lens (Voigtlander, love them), which will allow this to be done, but it's very rare I do these kind of portraits. My focus is on the story telling via props and the lighting.
Cases where I absolutely would reconsider MFT:
If my style demanded very shallow depth of focus or if I shot professionally for high end clients, then I would go with full frame or even medium format. Particularly if I did studio work. If I did large printing, if I would have to do a lot of cropping (take one shot, get it all in there), then I would go with full frame or medium format. If I did a lot of low light photography I would go with full frame.
Generally, if I did professional photography I would probably go with full frame, depending on where I lived. Not so much because of the sensor size, but because gear would be more available, and in these cases I would go with Canon, Nikon, or Sony. This would allow me the option to easily replace gear, to get it insured, to rent gear when needed, etc.
When people make videos like this, which is a great and informative video, I wish there would be more emphasis on the "do you need this?" or "when and how do you need this". When I was new I had no clue. I wasn't aware that f4 on a full frame could give a nice out of focus background, depending on what I shot, and that f1.8 on APS-C would do the same - or the other way around. Or that it's more crucial to think about composition, that the background actually might be important for the story, etc.
I don't want people to invest in MFT, unless that it's the right choice for them. I do miss my full frame camera, there is definitely miss the system. But the push for everything to be full frame and that being promoted as "the perfect sensor" or system is problematic. Most people can't afford to invest in the full frame system with all the lenses that often is being promoted. And most are not fully aware of the strengths and downfalls of the various systems and how it applies to their needs.

You sir are a true photographer educator. Thank you for providing this knowledge free of charge. You provide some of the best internet content bar none.

Great video!
I find that people usually lose the plot when it comes to ISO and "total light gathered" with crop factors. This is because:
1- ISO is standardized across sensors of different sizes in terms of brightness (exposure), but won't have the same noise levels. It's as simple as: crop sensor cameras need to amplify the signal further, for the same ISO to give the same brightness. And that's exactly what goes on! Companies do this for the sake of convenience, but it created massive confusion for many people because of it.
2- People mistakenly conclude from that, that a shot taken at F4 on FF will gather the same amount of light as F4 on APSC, and only DOF is affected. Supposedly because the exposure settings are the same. You litteraly hear this false argument all the time on the internet. "Therefore, crop factor only needs to be multiplied to the focal length for equivalency" is the false conclusion they land at.
In reality, applying the crop factor to the aperture does give you an estimate on equivalency for not only DOF, but also noise levels (or in other words, total light gathered).
In practical terms, people usually understand the concept of "losing a stop of light" when it comes to optical cropping (ie teleconverters). And while the physics are very different when it comes to digital cropping (shrinking sensors), the end result is more or less the same.
Crop factors can in fact be conceptualized more or less the same way, in practical terms, whether they are optical (TCs) or digital (sensor size) in nature.
I absolutely hate crop sensor companies who will market their lenses by applying the crop factor to the focal length, but not the aperture. Even Apple does it on their iPhones... If you make the conscious decision to use a FF frame of reference of equivalency, you need to apply it to both aperture and focal length for the numbers to make any sense.
This leads people to make very real mistakes when comparing systems. Here are two examples of such falsehoods:
1- an R7 with the RF100-500 will gather more light and be "brighter" than an R6 + 200-800, under the assumption that the R7 system is "800mm f7.1 equivalent" and the R6 system is 800mm f9. This is simply not true.
For the numbers to make any sense in the sake of comparison of the low light capabilities, the R7 system HAS to be considered "800mm f11" equivalent, with crop factor applied to aperture as well. In fact, when cropping down to 800mm (no matter how you crop), the 100-500 does gather about 2/3rds less stops than the 200-800 at its native 800 f9. This should be obvious just by looking at the sheer size difference of their front elements!
In fact, if you do the actual math in reverse, one might say that on FF, the 200-800 performs extremely similarly, as a 500mm f5.6 would on APSC! And you'd be pretty much correct, both in DOF and light gathering! That is wildly different from the original false claim indeed!
2- An olympus with their new 600 f6.3 zoom is "like a 1200mm f6.3" in terms of low light performance. This is even more ridiculous of a claim when you see just how massive the rf1200mm f8 needs to be for FF. Saying a 600mm f6.3 on MFT can outperform it in low light is ridiculous.
If such claims were true, us astronomers would all use half inch sensors on shorter faster telescopes for deep space imaging and rival actual observatories, for "free ridiculous reach at no cost of light gathered". There's a reason why those are not the right tool for those jobs... It just doesn't work that way. I feel like these concepts come much easier to astronomers because we're used to a wider variety of optics+sensor combos, and the fact that on big scopes, just looking at the front element diameter immediately tells you about the total light gathering abilities. Our front diameter is the funnel, and the sensor is the bucket that collects from it, that's it!
Like I said, after reading many many people make these false assumptions on the internet, it really seems like where people lose the plot, is due to the fact that ISO is standardized for brightness, not signal amplification or noise, and therefore that exposure settings are the same, so "they must be gathering the same amount of light".
I applaud you for explaining all the concepts in a very clear and concise manner. Perhaps some practical examples like the ones I mentioned would've made it clearer to people who still dont quite get it yet! This is certainly a topic I encourage you to follow up on as I've never seen anyone really explain it so well.
It's funny, I've also used the "kiddie pool in the rain" metaphor myself when trying to explain this 😅! One way you can then follow it up with is that, if you consider aperture to be the intensity of the rain, well, to gather the same amount of water on the smaller kiddie pool, you need to increase the rain! Meaning, let more light in, and use an aperture on the smaller sensor that is 1/crop factor times smaller.
Your pinned comment kinda hinted at the last piece of the puzzle to finally "get it", but in my opinion this would be worth its own video, if you have the courage to go even more in depth on these convoluted concepts. If someone can do it's you lol.
In fact, there is even one step deeper down this theoretical rabbit hole, which is how *pixel size* affects all of this even further. All of these calculations technically apply to any sensor tech, and could apply just the same if you were shooting with film! All of these have nothing to do with pixel size (despite what people sometimes say), and moreso just with the total area of the sensor. But pixel size *also* matters, just in a different way!
In the real world with the current physical tech of manufacturing sensors, FF usually performs EVEN better than these calculations would predict, both because of pixel size and their inherent properties, and also simply because the best RND is usually invested in FF, because they are the high end products.
The exact numbers do vary and there is a lot of debate around them, but one can in fact expect 1-2/3rds stop beyond even what the theory of applying crop factor to aperture suggests!
Best regards Simon, this video is a gem!

This is by far the best most accurate and complete video on the subject!

At about the 5:10 mark, you say using the shorter focal length makes depth of field (DoF) deeper. However, later you accurately describe applying the crop factor to the f-stop to allow the shorter lens to deliver an image having the same DoF.
If you were to mention that this outcome occurs because both lenses have the same 8mm entrance pupil diameter and this quality - not focal length - determines DoF, that would clear up some potential misunderstanding.

Tiny correction: at 1:26 Simon gives the dimensions of a Canon APS-C sensor, and says “a bit smaller on other brands”. It's actually a bit bigger on other brands, which is why Canon APS-C's crop factor is 1.6 and other brands are closer to 1.5 (exact numbers vary in the sources I found: I’ve seen 1.52 and 1.53 given for Fujifilm X, 1.53 for Nikon and Sony APS-C, and 1.62 for Canon APS-C).

As a very dedicated Olympus/OM System Micro Four Thirds shooter, I've seen a lot of discussions of "crop factor" - many spreading incorrect or even malicious information. However, this video, and your explanation, is the clearest, most accurate, and unbiased I've seen and I will refer it to others as a reference.
The only thing I would offer is that your explanations involving depth of field does seem to be biased towards the position that shallower DOF is better, if only because you explain what must be done with crop sensors to get as shallow of DOF as a given FF lens/f-stop combination. I think it would be just as valid to point out that crop sensor cameras have the advantage in cases where greater DOF is desired. It is, as you said, dependent on your type of photography. Thank for a really helpful and clear video.

Great video. Each sensor format has its pros and cons, but all are sufficient for nearly all use cases when operated according to their strengths.

I've just gone from Micro Four Thirds to medium format. But! Most of the reason for that is because I wanted a specific camera and its shooting experience, *not* because MFT isn't "good enough".
Yes, to nobody's surprise, medium format runs rings around MFT in detail and dynamic range. That doesn't actually make the photos better, because a hyper-detailed image with an uninteresting composition is still uninteresting.
What *does* make the photos better is that I love using this camera, the experience suits me, and I'm composing more thoughtfully as a result.
The vast majority of modern cameras take photos with more than enough resolution and detail for the vast majority of use cases. I have 60x40cm prints from my MFT camera on my wall, and they look fantastic. I have some images blown up bigger than that, and they still look great. Not pinpoint sharp, no, but there's still loads of detail and they're still reasonably crisp at a reasonable viewing distance.
Features, UI/UX, and the lens ecosystem are vastly more important than the sensor for most people. Pros will need specific features. For people who aren't shooting on commercial jobs, I think the single most important thing is having a camera that you *enjoy using.*
I'd still be shooting MFT if I didn't have gripes with the user experience - problems shared by most cameras, with clumsy menus, crappy rear screens (in both size and quality), and awful phone companion apps.

I’m always frustrated when UA-cam photographers explain crop factor and depth of field. First time I see it done right, and in a beginner-friendly format on top of that. Congrats!

The best lesson here is the equivalency formula of multiplying the crop factor to aperture and lens size. Thanks for that!
Pixel pitch and crop factor make a difference in noise levels in low light. Bigger area is better on collecting light. Bigger pixel pitch usually has less noise, as 24mp will have less noise over 45mp in FF due to larger size of pixels on sensors. In very bright light digital noise is less of an issue.

Finally, a short and 100% accurate walk-through of the key differences. Tony Northrup did this years ago, with the same information, but not as short and on point as this. Most tend to misunderstand how things work. I've had so many discussions with people refusing to come to terms with the fact that applying the crop factor to the aperture make sense.

I love when people explain this topic correctly

Doing deep night bar and club photography I've never had to go above iso 3200 on m43, chose to go to 6400 or 12800 a couple times for specific effects, but 90% of images shot were at 800 iso on f0.95 lenses. First time I used my full frame s5iiX my iso never dropped beneath 3200

Finally a video that explains the differences perfectly. I shoot FF and M 4/3. There are features on my OM-1 that just cannot be found in the full frame world. I also prefer it for wild life and nature photography.

Excellent. Just a freakin' excellent presentation. Crop sensors don't affect exposure. Ever. Never has, never will. But as you explain, it does affect equivalency in other artistic parts of a photograph. Your video won't stop the debate commentary, but it is spot on and it will answer questions for those that want the true answers, and desire to move on. Well done.

Got into photography as a hobby in 2018 by getting a Panasonic lumix g85. I primarily went for it because of the price point and small size which are quite nice, however at the time I was a complete novice and didn't really understand the differences between the different camera types. I would take it out with me on drives in the mountains or into work for my job's social media stuff but nothing more complex. Now thanks to you I'm learning a whole lot about photography and how to use my camera to its fullest. It's a fun journey, so thank you!

Very insightful indeed. At 1:50 you said people have misconception that crop sensor lenses shrink images to fit a smaller sensor. Wondering if that is indeed the case. Specialized crop sensor lenses do create images (circular) that can only fit the area of a crop/APS-S sensor size and when used on full-frame they do not cover the entire sensor (36mm x 24 mm). So, in a way, crop sensor lenses do shrink the images to cover crop sensor or smaller area.

You are a good man Simon .. and our enthusiasm, positivity, and deep wisdom are priceless

Definitely one of the best explanations of crop factor I have seen. I have recently switched from Canon full frame to an OM-1. As someone who primarily shoots macro the M4/3 and Olympus/OM Systems bodies and glass work beautifully. I have also started dabbling in bird photography; the extra reach and light weights of the m4/3 are a huge bonus. Now that I am learning how to properly expose the OM-1, the high ISO performance is much better than I expected from the smaller sensor. Do I miss features of my full-frame gear? Of course. Would I switch back, probably not

I shoot m43 and this is one of the best explanations I seen so far. Always enjoy your content.

Exactly the vid I needed right now. I had a grasp of it sufficient to apply it, but now I understand well enough to be able to explain it - and the crop squared for iso isn't something I knew, I just adjusted till it looked ok. Fantastic work, probably the definitive clip on the subject on this platform.

I've been shooting FF and crop side by side for ... 2 weeks. LOL I just took possession of a crop sensor R7 to go along with my EOS-R. My "real world" swapping has told me a couple of things - 1) the R7 seems to lose out only in being a bit noisier in final image quality - but it's manageable. 2) the two cameras get very different things out of lenses - the crop sensor cuts out distortion and vignetting, but exaggerates chromatic aberration in full frame lenses. 3) a lens of marginal sharpness (like some of my vintage lenses) is going to REALLY struggle on a crop sensor. 4) I can use that extra depth of field from the crop sensor to help me with my macro photography. and 5) I love using smaller, shorter, lenses!
Having both available is a luxury, but, in the end, I find the value for money of the R7 mind blowing.

Excellent explanation. I learned this way back in the days of film when dealing with 35mm, 2 1/4, 5x4 and large formats. Using film, it can become critical when dealing with exposure values, focus fall off and vignetting that is difficult to correct or compensate for in a wet lab.

Note that at 7:28, the depth of field remains consistent only if you shoot from the same distance. Doubling the distance and cropping the image would yield an equivalent depth of field without altering the aperture. I just think its important to mention that there are two methods of achieving the same result.

Thank you so much Simon! This put things into to place for me. There’s a lot of people confusing it, and misleading us, by fx. Only talking about the depth of field equivalency.

This is one of the best videos on this subject I’ve seen. I rarely see a concise explanation like this that maintains the necessary context and nuance. I often find people mention one or two of these points in passing with little context which leaves the audience to debate its importance. Great work as always!

I've recently discovered this channel and Simon just gives the useful information in such a natural way without over complicating or dumbing it down. I've been watching these and even my other half who isn't interested in photography has been watching and commented on the beautiful shots used in the videos. i know its not on topic but this man deserves to be told what a great job he's doing. I'm only an in and out hobby photographer and he makes me want to grab my gear and go out and see what i can shoot! thanks Simon.

One of the most "putting people at ease" explanations about that "fizzics" laden topic I've seen yet, nicely done. Plus the obvious always, in my opinion, helpful "get out and shoot with what you have". Thank you !
🥰

Not going to lie .. this was not something I’ve given much thought too. But now I’m going to have to watch again to be sure to be sure.

Definitely sounds like if you’re lacking reach because you don’t have the budget for an 800mm with a 1.4x extender, crop sensors are probably a better option for you. Thanks for the video!!!

You could mention circle of confusion, dof vs background compression and background compression when using FF lens on apsc body vs on FF body

Finally the missing piece. I was so confused when I always heard in videos etc: "I use xy mm at x f" and when I used the x2 equivalent lenses on my M43 the DOF was always different. The corelation with aperture should be voiced lauder than it currently is. Thank you for this video Simon!

Okay, I've bookmarked this video for further review just to ensure I get this right. Man, Simon you have the gift for explaining even the more complicated subjects. I'll let this new info rattle around in my brain for a while, in the hope I can generalize the knowledge you shared. Heeding your warning I read your pinned comment before watching the video. Very helpful. Thank you for the mental workout, it's much appreciated.

I love my 61 megapixels full frame Cameras, I can make large photos in very high quality and I can crop to APSC format in 26 megapixels and still get really good photos, it is like having two Cameras in one Camera ! So for me full frame Cameras are the best and most versatile Cameras.

i love simon - no intro now is better

Good video. I think lots of beginner (and some experienced) photographers get very tangled up over equivalence. The thing to remember is that equivalence is something that photographers do in their head, it's not a thing cameras and lenses do.
A 50mm f/1.2 is a 50mm f/1.2 on a camera with a 35mm sensor, APSC 1.5x (everyone but Canon), APSC 1.6x (Canon), or 2x (M43). But the result looks different. It's only when a photographer wants to recreate something from one sensor size to another sensor size - then that's when they get involved in equivalence.
I've been shooting Fuji for so long (1.52x) that I know what a 50mm, 100m, or 10mm looks like on that sensor. It doesn't matter what it looks like on any other sizes - I don't shoot those. Equivalence plays no part in what I do.

I love the explanation with the science/math behind it.... its how my brain works so its much easier for me to understand even when i think i already know the stuff!

Man, i download almost all of your education videos for me to watch at work (I'm an engineer) , and on the rare occasion i don't learn something new or make a note of something you said , i almost definitely get entertained and encouraged to continue photography as my art project 📷

Simon I don t always share what you say but you have here probably the simpliest and best explanation about link between crop sensor size , aperture and OSO so big thx for this.

"...just save some money for fast lenses..."
Could not have said it better.
That said, I sometimes wonder how diffraction plays into equivalency. Diffraction is an absolute-size thing (absolute size of lens opening to absolute size of Airy disc on sensor as opposed to f-number, which is relative to lens length - and lens width is relative to the image disc required to cover the sensor). It's fairly academic for me as I shoot a lot of low light so FF is a no-brainer.
BTW, did I see a shot from Jon Sach's 'DOF'? I worked with him at Lotus Development (before he wrote Picture Window). Either way, it's a decent *free* app on Android, iOS, and Windows; let's you plug in your sensor size and focal length and interactive see what changing aperture does. Worth a look if you haven't seen it.

Excellent summary: I really liked the discussion about field of view vs. depth of field vs. exposure. And the section on ISO was *chef's kiss*. It also confirmed my empirical thoughts about using Micro Four Thirds: bright lenses pay big dividends in terms of results.

Been shooting with APS-C for the past 12 years due to form factor and of course cheaper cost. I don't really care about the technicality compared to fullframe (although i understand the differences). The ultimate goal is the image we took, not the technical aspect of the camera

Thanks, Simon. This is a great starting point for explaining the difference between full-frame and DX lenses and changing the image size on cameras that have that feature.

Have you got a video where you show your kit for landscape photography? That would be good to see! Sensor-wise I'm a massive m43 fan due to size, but do miss some of the benefits from FF!

Greatest explanation ever, thank you Simon . Im a Nikon crop and full frame user but not a math wizard so I just go out and shoot just for the fun and art of it. 😄📷

Also, you shouldn't change the shutter speed when applying crop factor but instead adjust the ISO setting. This is how you achieve 100% identical images with a 35mm F1.8 on APS-C compared to a 50mm F2.8 on a full frame. The only differences left are the actual lens characteristics (like t-stop etc) and sensor and digital circuitry performances.
Lenses project a circular image onto the camera sensor. The size of this image circle depends on the lens design. Full-frame lenses are designed to produce a larger image circle to cover the full-frame sensor. APS-C lenses, produce a smaller image circle optimized for the smaller APS-C sensor.
The focal length remains constant, so the focal length is an intrinsic property of the lens and does not change based on sensor size or lens design of the back projection size.

New to photography I was a bit lost on the overall effects of my APS-C and how to compensate until seeing this video. Thank you!

A rule of thumb is all lenses are a similar size when depth of field is the principal metric, whatever the sensor dimensions.

I recently moved to Alaska and was getting into photography again after not doing it for a while, I expected it to be easy but I was quickly overwhelmed as it was the first time I've had to shoot in very dark conditions. Your videos have helped me the most and allowed be to actually get the photos that I want so I can share the experiences that I have here with my friends and family in the lower 48, Thank you so much.

Wow, really nice video! I bought myself my first real camera this month and I am sucking up as much knowledge as possible right now. Since I really like wide angle and night photography I picked up a full frame camera, the Canon Eos RP, used with a 35mm f1.8 lens for 1200€ (approx. $1280) in total. So far I am absolutely loving it, although in the beginning I had some slight buyers remorse since most videos and tutorials used sony cameras and many "best cameras for beginners" focused heavily on the a6 series, disregarding most canon and Nikon cameras altogether. A few reviewers also had a more negative opinion on the RP.
However once I started shooting more and more, most of my worries went away and I can confidently say that I love what I bought and love the pictures I get out of it. Since I only have one camera, I can't really say if I would have been as happy as I am with an apsc sensor, or even m4/3, but my way of shooting pictures fits very well and I hope I can get to the point of earning money with photography at one point.
In that regard: thank you for providing so much free information, not just on photography in and of itself, but to the business side as well!

Great explanation of some very complicated concepts
I never really thought much about it, other than magnification.
Thanks for a great lesson

I’ve basically waited 20 years for this simple explanation. Merci Simon!

Hi Simon…this video has my head spinning! Will need to watch more than once! Thanks

One of the best on the subject. I'm an electronics engineer. And I look at this from a purely physical angle that makes it much easier to understand for me. A lens is a lens and it does not care what sensor is behind it. It always does the same. The thing that makes the difference is pixel density and with that pixel size on the sensor. That makes all the difference. And most photographers are more artist than scientist, so it is normal they forget about that. Simon is clearly both artist and scientist🙂. But, Simon, tell about pixel size. That is what makes the difference. Your total light argument is correct, the real reason why a FF has less noise though is pixel size. As in your analogy: each pixel on a FF is a liitle pool in its own right and the little pools are usually larger on a FF.
The crop sensor only uses a smaller piece of the image circle, there is nothing else to it. So *_everything_* is the same, really. Things get complicated when you are starting to mess with the lens settings to get an equivalent image. People, that is optics, not sensor size, don't forget that. Your Full Frame sensor can be put in crop mode so it only uses the centre piece of the sensor to make the image. Do you think that changes lens behavior? See how simple this is?
If you have 24 Mpix on a 24 x 36 mm sensor, the quick and dirty statement is that each pixel can have a maximum size of 24.10^-3 * 36.10^-3 / 24. 10^6 = 36.10^-12 (sorry, I don't know how to put formulae in a youtube comment) so the surface of a pixel can be "36 square microns". Do the same calc for an APS-C sensor. Now you have "16 square microns". That is less than half the pixel size. Less than half surface to collect light. For the proper image exposure, equivalent to full frame, the amplifier behind the sensor needs to be turned up a notch. Do this with your audio amplifier and you'll see what I mean. More noise. And that is the difference. A higher pixel density means - at equivalent state of technology - more noise on the APS-C sensor.
Another maybe easier approach. My 24 Mpix R8 uses 9 Mpix in APS-C mode. My R7 has a sensor that packs 32.5 Mpix on the same surface. No wonder the R8 has better noise perfomance. No wonder full frame is better in low light. No wonder the FF image is sharper, the lens with the same identical resolution will be much more exposed to the scrutiny of those tiny pixels on the APS-C sensor, seeing lens defects much enlarged on the image frame. Comparing a 24 Mpix FF to a 32.5 MPix APS-C is bonkers. You must compare a 83.2 Mpix FF with a 32.5 Mpix APS-C. That is the fair comparison.
My EF 24-105 f/4 L looked really good on my 10 Mpix APS-C Canon 40D. On the R7, this lens is pretty poor. On the R8 I'm back to the 40D's pixel density. And behold! It's good again! For an APS-C's sensor like the R7's, the lens must be ultra sharp and ultra good. The simple truth is Canon has difficulty making such lenses. Competition is better at it. That is probably why Canon avoids high-end APS-C and is not opening RF AF to competition, it is weakness, really. The only Canon lens I know that can keep up with the R7 sensor is the RF 28mm f/2.8 pancake. A full frame lens.

There is no other youtube channel, where I can get so much knowledge conveyed in a simple way. Thank you so much for sharing this with us. Greetings from Poland, mr Simon ;)

As a setup to your discussion of equivalence, ISO and noise, I will suggest mentioning that the light used to make the photo is the source of noise in the photo. Noise is determined by the total light delivered to the sensor.
A smaller sensor working with the same exposure as as a larger sensor will, as you explained earlier in the video, capture less total light. Increasing exposure to f/2.5 allows the APS-C sensor camera to collect the same total light as the full-frame. Same total light equals the same noise.
ISO's role is to set the image lightness of the photo. It's not a noise source. Since the full-frame camera is working with a weaker exposure, it needs a higher ISO to make an equivalent image.
Thank you, again, for all the educational content you produce and the inspiration you provide.

Here's where terminology can trip you up again. You say that to get the same (shallow) DOF in a smaller sensor you need a 'wider' aperture. Actually you need the same aperture (aperture is the size of the 'hole' through which the light passes - the entrance pupil) but since the focal length is smaller to get the same framing, the same aperture means a smaller f-number, since f-number is focal length divided by aperture. Yes, I know we all say 'aperture' when we really mean 'f-number', but the two terms aren't synonymous - and it's this tyre of discussion where you can trip over this. Anyhow, apart from that point, great video.
Think about if your camera was a black box - you don't know what is going on inside. All your photography is controlled by what is happening in front of the lens - the camera to subject distance, the angle of view, the size of the aperture and the exposure time. It's only because our standard camera controls insist on you knowing what's going on inside that we have these issues.

You are spot on when saying equivalence is often misunderstood, Unfortunately, some folks see equivalence as a method for determining which format is best - often arriving at the conclusion that full-frame is best. In fact, equivalence is simply a method for determining the settings needed for different format cameras to make the same photo.
Rather than making the case that one format is better than another, equivalence sheds light on how different formats can deliver the same output.

Much better explanation than some I have seen. A shame you could not borrow an Olympus/OM System camera or a Panasonic G to actually show micro four thirds and compare. Also to round it all out having a Fujifilm GFX camera would have made it complete 😊.
I have a Panasonic Lumix G9 with two card slots and a top display. *Looks* as professional as any but my 100-300 zoom (200-600 on digital small format) is a great weight and space saver !
For me as a mft shooter my only real problem is low light. But since I seldom shoot in those circumstances it is seldom a problem for me and the benefits of a smaller and lighter kit are important for me and some others. While not the sensor per se and "equivalence" discussions micro four thirds cameras have two advantages that some who do not use the fornat know/ think about. On the larger body mft cameras, make greater image stabilization is possible because of the smaller sensor. Also the smaller sensor can have much faster read speeds when filming video with much less heating. Also with the pixel shift technology in some mft cameras now if the subject is still and your camera is on a tripod the cameras can easily produce 40 megapixel images. Or higher.
In the end the different sensor standards have advantages and drawbacks delending on the genre and the individual needs of the photographer .

I went from a Sony A7II (fullframe) to a OMSystem OM-5 and love photography even more now. I can't put a word to it really, but I just find it more enjoyable with the OM5.

Completely understanding crop factor can help you shoot much better on an APS-C sensor, sometimes outdoing a full frame camera. One of my favourite tricks is increasing exposure by roughtly 70% using a full frame to APS-C adapter. Great for low light situations, especially with video. I still do this today at 28MP on a a7RIV.

So if I'm understanding correctly, a full frame sensor is going to have less noise than a crop sensor at the same ISO value? Your example showed comparable noise with full frame at 1000 ISO and crop sensor at 400 ISO. So if the full frame sensor was at the same 400 ISO as the crop sensor, the image would be less noisy than the crop sensor.

Finally a proper video that puts this debate to rest. Because you are right, it is all about equivalency!
Saying that the aperture is always depending on the crop factor would basically mean that the size of the sensor somehow has a direct influence on the size of the physical hole the light shines through as it passes through the lens. Which makes zero sense!
And about the exposure, of course it stays the same, independant from the sensor size. I've seen some people making a crucial mistake when they compared this between APS-C and 35mm cameras. They used different lenses. Like an APS-C 35mm f/1.8 and a full frame 35mm f/1.8. Naturally this does have an effect on the exposure because even though focal length and aperture are the same, those two lenses can have different light transmission...

Best channel ever. thank you

As I get more and more experience as a photographer, the less I consider crop factor or equivalence to be worth worrying over. Consider that focal length is a known and measurable value. Aperture is also a known value, although represented by a ratio as a mathematical shorthand for equivalent exposure. The only time anybody is really worried about crop factor is trying to figure out how magnified the image is in the final frame. What I consider to be more important, though, is the effect on perspective that focal length and subject distance brings to the final image, which is something best learned through experimentation. We have more and more sensor sizes becoming available to us, from the tiny and amazingly capable sensors in phones and drones to the apparent revival of digital medium format being led by Fuji and now Hasselblad. The bottom line is that every camera and lens in your bag is a different tool, and you learn to use those tools by creating things with them.

1:11 My OCD cannot handle the measurements of the sensors on the wrong axis.

This is what a genuine pro looks like, great video as always Simon!

This is the best summary I’ve seen on this topic.

Let me add to all of the compliments below. What was amusing to me is that as you continued, my mind started to spin, asking how we are expected to crank all these numbers and calculations out while taking the photo at the same time!!! (Horrors!) It was about that time when you started focusing (no pun intended) that much of this discussion is things you think about BEFORE you buy your equipment. At that point, you can go back to worrying about the normal stuff like settings, composition, etc. 😅

Finally, a correct explanation of crop factor and focal length and aperture. The "equivalent image" will be slightly different....physics does not change with "crop factor".

I stumbled upon this video as someone who never took too much interest in the technical side of photography but who still sometimes have had to make it work anyway. It's too much information for me to take in at once, but it was funny because halfway through the video I realized that this still kinda made sense to me, which is funny because it never did before! Kudos~

Spot on. They’re tools. They have their advantages and disadvantages… pick the tool for the job. M4/3 can be helpful for travel and landscape since they’re often lighter and you can stabilize a smaller sensor easier , plus f/4 is f/8 DOF. However for portraits, the compression of a 50mm lens is just different than a 25mm lens (m4/3). Not to mention, like you said, there is no equivalent to a 50mm f/1.4 on m4/3

Once again, he takes a very complicated and convoluted subject and simplifies it so that anyone can understand it. Great job, Simon.

I own both full frame and APSC! I use the full frame for portraits and landscapes, APSC for sports and birds for the reach.

I’ll watch it for the algorithm but glad you made this for all the misconceptions out there
Extremely well presented!
Follow-up maybe could be on “speed boosters” and super 35 sensor sizes. Cheers

Finally someone who has some common sense. Each time I try to explain these nuances on the comment section (looking at Tony and Chelsea Northrup channel) I get swarmed and murdered 😂

Excellent video on the relationships between sensor size, focal lengths, F-stop, shutter speed. The sample images tell the story. The same attributes / effects you want can be obtained with a range of lenses, settings and sensor sizes. ie You don't have to have a 50mm F1.4 on full frame to get that type of background blurr. There are other ways to get that using equivalents. Just play around and prove it to yourself!
The video was not intended to be, but is a good argument for zoom lenses! However, they are not just about 'zooming to a different focal length to get closer or wider view without changing your lens'. They can also be about changing where you stand to match the focal length you wish to use to create the effect you want, no matter what lens and/or sensor size you are using. As shown in the samples in the video, blurring the background like a 50mm F1.4 can be replicated by other options. Simply change where you are standing and what settings you use!
Back in the 1960s, my first camera was a hand me down from my grandfather. A folding Brownie. Open up and extend out the bellows. Two focusing options provided by where the bellows locked. (The equivalent of using an extension ring today!) That took '120' roll film. 8 shots of 3.5" x 2.5" negatives to a roll! No longer need a camera on a tripod and 10" x 8" glass plates! Instead, something 'the masses' could carry about and use!
Better 120 roll film cameras came out at reasonable prices eg the Roliflex twin lens. Two lenses mounted on a moving plate. One for focusing. The other for the film. The Hasselblad single lens was arguably the epitome of roll film.
Back then 35mm cameras were thought of as toys. Moving to a Kodak Instamatic 204 was a classic (126 film). It just didn't produce the same quality as the folding Brownie! However, the Kodak Retinette (35mm film) and similar by others were better. They had manual focus, manual shutter speed and manual f-stop. ISO was controlled by the film you put in! But they could produce quality photos. For 'the masses', the 120 roll film cameras faded away with the 35mm SLR striking the last blows for the advanced amateurs / semi-pros and eventually the pros.
Of course then came the 1/2 frame film option. Eg The Olympus Pen! 1970s? 48 shots on a 24 shot 35mm film! With a 'wide angle' lens, accurate focusing was not critical. It had auto exposure and was designed for the traveller! Postcard size prints were fine!
To me, the above is equivalent to the development history of full frame CMOS v crop sensors! As the smaller sensor options (previously smaller film size) get better, the old ones fades out. Just look at the price of APS-C camera bodies. No longer related to sensor size / MP count that much. More to do with all the 'features' and firmware. What APS-C has provided us with is more affordable lens options.
And for those who can remember 120 roll film, can you imaging how big a 100-400mm zoom lens would be for it?

Could you please make somr videos on videography?
I love your content!

Great video on a topic that I just asked Mark Denny about. I shoot with a Sony APS-C and have been curious about the impact of crop factor on aperture. At some point it just is what it is but can be helpful in setting up particular kinds of shots where DOF and bokeh are important. You have a fantastic way of making complex photography topics easier to understand.

Some guy tried telling me today that if the numbers arent the same then its not a standard...basically saying that iso 6400 on a full frame is the same as iso 6400 on an apsc....all i could do is shake my head in disbelief...some people just cant figure this stuff out and they wont accept an explanation if it doesnt match their narrative

This is a really great explanation of a complex subject. Thank you for all the insights and congratulations for explaining it so well.

I shoot a DX-format Nikon right now. I was never really sold on mirrorless, but now that mirrorless has won, I don't really feel like I have a choice for my next upgrade. Because of that, I think I'm going to move to Fuji "medium format". I'd love to do true medium format, like Phase One or something, but I can't justify the expense.

I appreciate is that you're willing to put your input on controversial information, it gets the group communicating with each other.

In a perfect world, I could afford a Canon R6II. I'm finding myself looking to the R7 and R8. I'm focused on the benefits of the fully featured R7, such as IBIS; vs the full frame of the R8. I'm mostly still feeling lost, but your videos are helping me learn about the new products. My needs range from indoor pictures of my toddler and family, to nature (wild flowers, the coast and ocean waves, landscapes), and also motorsport (and car show) photography. I will be coming from a 6D which I bought used many years ago. My biggest apprehension with the R7 at the moment is being able to get wide enough angles for family pictures, as well as up close on flowers such as trillium, or interesting bugs.

the way I see things is that an f2.8 on full frame corresponds to an f2.8 on crop sensors because they give the same exposure, the consequences on depth of field and noise are just features of one format or the other, for example one may even prefer a deeper depth of field, or even a more grainy photo. the real indisputable advantage of full frame for me is mode detail, more resolution....even for the same nominal resolution and with comparable quality lenses.....anyway, your explanation is impeccable!

Simon - just starting out in bird photo - your videos are a revelation - this one especially cleared up a whole load of confusion for me re crop factors and aperture - convinced to stay with my APS-C choice for now - TY - saved me a lot of ££££

I shoot a Nikon Z9 and one of the things I like is that I can use a function button to quickly shift from Full Frame mode to DX mode quickly. While it get fewer megapixels I can still get the look of a cropped sensor. Just a hobbyist so MPs are still good enough for computer slide shows and normal print sizes.

Excellent understandable video! I Always enjoy your postings. I actually use an APS-C lens on full frame body for travel, where I want to carry only one lens and have the most flexibility. The smaller file sizes work out well for keeping my travel souvenirs. Looking forward to your next video!

When I first started playing around with photography about a year and a half ago the whole “crop factor” thing really threw me for a loop. Lenses kept bringing crop factor up all the time as did sensor size discussions. As my genre was astrophotography diving deep into this whole mess was ultimately very useful for me as I was also building raspberry pi astro cams mated to my Nikon lenses so figuring the math out on all this helped me quite a bit.
This winter has been a complete astro bust for me so I recently started shooting random things on my daily walks which has forced me to become way more fluent in “normal” photography skills and talking points.
I understand have come understand why my brother, who is a photographer, kept telling me to forget about crop factor as the only camera I’m shooting with is APS-C and therefore crop factor is irrelevant. This was initially irritating because I couldn’t see the truth of it. This topic only matters when you are using different sensor sizes as I do on my astrophotography AND you are trying to keep as much stuff the same across your lens/sensor combinations.
If you aren’t swapping your lens to different sensor sizes then don’t worry about it … just figure out the lenses and sensors you are using. But … if you are switching it up across lenses and sensors and want the same framing, exposure, depth of field, etc., then this video is super helpful to clarify stuff if you don’t want to crawl into the math.
Super clear and helpful.

In short: yes, you should apply crop factor to calculate DoF, but only if that matters for your case or style.
Another great video Simon!

This is an excellent video that will be helpful to a lot of people!

Your channel has been such an invaluable source to me as a "newbie" learning on my first "real camera" setup. Thank you for all you do!

7:28 How can this be the first time I've heard that crop factor doesn't apply to aperture with regard to exposure? No video I've watched ever mentioned this, I literally thought you'd have to shoot at twice the ISO for the same f-stop number to get the same brightness. Thank you for clarifying this!