How Many Megapixels Is 35mm Film?

Back in 1974-77 I worked in the Photomechanical Lab at National Geographic where we did the photographic production steps for the NGS maps, halftones and color separations for offset printing. I moved on into printing management for a commercial magazine printer then joined the US Foreign Service spending 28 years managing its overseas and domestic publication production, converting it from analog to digital methods.
Because printing presses and ink jet printers reproduce continuous tone images from film by breaking into a pattern of variable sized dots. Color images are reproduced with a pattern of dots printed with transparent Cyan, Magenta, Yellow and Black dots in a rosette pattern with a spacing of 133-150 dots per inch which is the resolution at which the human eye at 18” reading distance will perceive the image as continuous tone similar to the original silver and dye based photographic medium. Thus 133 or 150 dots per inch or DPI because the industry standard for offset printing. Trying to space the dots closer together resulted in them spreading together in the darker areas which causes a loss in shadow detail. Because paper is darker than projected light light it is also necessary to adjust the contrast of the midtones when reproducing a photograph to compensate.
When B&W laser printers were invented there needed to be a way to create different dot sizes and each dot spaced 1/150th inch apart actually consisted of a 10x10 grid of smaller dots the laser printer would fuse toner into creating a 100 step gradient of tone on a laser printed B&W photo which to the human eye and brain looked continuous tone. There was a 2:1 oversampling rate between digital pixels and laser printing dots which is where the 300 PPI or Pixels per Inch standard for digital reproduction of continuous tone photos.
Using that 300ppi rule of thumb is is easy to calculate how large a print can be made from a digital file and have it perceived in the same way as the photographic original or in the case of digital cameras the perception of the original scene by eye.
With regard to 35mm film, color negative film is used to make prints and that involves optically enlarging the image which results in a loss of image quality as the size of the reproduction increases. A 16x20 print from a 35mm negative will not look as sharp and detailed as a 4x6 print. This is where the number of pixels in a digital sensor comes into play.
The first digital camera I used was an .8 MP Apple QuickTake 100 in 1994 I bought for work to replace Polaroids used to document shipping damage making it possible to e-mail the photos. I was in the Philippines managing the USIA Publication Center in Manila at the time and was also running one of the earliest web servers on the Internet at the time (there were only about 5,000 active then) so I edited photos of traditional Christmas decoration I took on bike ride in Photoshop and published them on a web page on Internet: super.nova.org/pasko keeping the file sizes small because there was so little bandwidth-the entire network in the Philippines at the time was connected to the Internet via a 56Kbps bandwidth on a fiber cable running across the Pacific to California which had been activated just months earlier in March 1994.
I waited until 2000 to purchase my own digital waiting for the resolution to react 1200 x 1800 pixels which I knew based on my reproduction experience would produce a 4” x 6” print that would look every bit as good or better than a 4x6 from a 35mm negative. I didn’t use an ink jet printer to make my prints I used a $25k 3M Rainbow Dye Sublimation printer we used at work for proofing color separations made from film transparencies. Instead of ink it used rolls of Cyan, Magenta, Yellow and black film which were fused into the paper similar to how a B&W laser printer works. The 4x6 prints produce that way were better looking than prints because there were no optics involved in making the print and I was quite skilled at editing and sharpen images in Photoshop by then. The camera was a 2.1 MP Kodak DC290 with a 3x zoom lens and I was able to make 12 x18 inch prints, the largest the 3M Rainbow could produce which were were as good as as any similar size prints I had made from 35mm. Some of them still hang on my walls 23 years later.
From that point on the number of MP the camera had just determined how big of an “on par with 35mm” print I could make. Knowing that camera sensor size were going to increase rapidly I decided to wait for prosumer level 8MP camera by Nikon and Canon before spending for a DSLR and new lenses and for that reason in 2001 purchased a 5MP Minolta D7Hi and produced better than film 12x18 Dye Sub and letter size inkjet prints on an HP 8/C photo printer I bought for on clearance at Costco for $125 to print at home.
I’d been a Nikon user since 1968 and owned a NikonosII and NikonosV underwater cameras and a pair of Nikon F bodies and lenses but in 2004 opted for a Canon 8MP 20D because Canon had invested in fabbing its own CMOS sensor but Nikon was using inferior CCD technology sourced from Nikon and Canon appeared at that point to be the better long term investment. In addition to the 20D body I bought Canons 10-22mm, 24-70 2.8 L, 70-200mm 2.8 L and two 580ex flashes. I upgraded to a 10-bit 15MP 50D body in 2008 and still use in 2024 it because with the skills I have in post processing images 15MP is more than adequate for sharing images via TH-cam slide shows on my channel and displaying them on my 4K 65” Sony TV with far better IQ than from a print that size 😊
I did finally upgrade to a pair of 24MP R6mkII bodies this year because I wanted to shoot birds in flight and other wildlife, the AF and AE is so much on the mirrorless bodies and needed to invest in longer lenses. But all of my circa 2004 canon lenses still work and produce more than adequate results on the R6mkII using the EF-RF adapter. I have a regular adapter and a second with VND I used when shooting video, eliminating the need to buy expensive lens end ND filters.

I am a professional photographer and used to work as a technical editor at FOTO magazine in the Netherlands in the old days. I tested films, camera's and lenses.
Three things to add:
- at 8 mp already prints were amazing compared to analogue film because the surfaces in the pictures were "closed", no black spots at a close look from the grain
-it is very important to take the ISO in consideration: at the time I tested the first Konica 35 mm 3200 film which was exceptional, but it had a lot of grain and solution was (very) low. The performance of the camera with the best sensor today, the Sony A7Riii, would have been regarded a miracle in those days
- I wrote a book about the Zonesystem for black and white, following the achievements of Ansel Adams. The standard range consists of 11 zones and it really needs a lot of tweaking and "soft printpaper" to get to 15 zones, which is easy achievable today.
I conclude that digital photography brought us an extra camera size, e.g. we easily do medium format now at 35mm size.

When I was a kid in the 60s we had a viewer to look at slides. To me, as a kid, this was a similar experience to looking at a digital photo on a modern phone. I used to love the way the pictures lit up and spung into life as you pushed the slides down into the viewer.

I have worked as an amateur and professional photographer for many years. When I was using film I shot in 35mm, medium and large format. As much as I loved working in film , the simplicity of digital is, for me, much better. I have, for years, shot church interiors. With film I used low film speed for a better image and had to use a long exposure . Anything over 400 Asa was grainy as hell. Now, I can hand hold my camera, hike up the iso and still have little noise.
When shooting industrial interiors that had different light temperatures it was necessary to use filters for colour balance. Now, with Digital I can shoot and edit it in post production. Easy peasy, comparatively! I guess many new photographers have not the faintest idea what I’m talking about. A good video, nevertheless.

1978 was my introduction to Friday Night Lights as the rookie 'shooter' for the San Angelo Standard-Times newspaper. I was sent to Odessa to shoot the S.A. Bobcats v Permian Panthers (Mojo). Game time was 7:30 pm, deadline to turn in photo to the sports desk was 11. Drive time was about 2:15, film processing about 30 minutes, printing time 15 min which would leave me about 30 minutes to shoot the game. Camera was a Nikon FM with a Nikkor 180mm f2.8 and no motor drive, unless you count my thumb, film was Kodak Tri-X 400 ASA, PUSHED to 3200. To give me more shooting time I decided to process the film in the car during the drive time, that gave me an additional 20 minutes to shoot. I used two 36 exposure roles of film, loaded the film in the car using a changing bag, scissors, can opener and stainless steel reels/can. With one hand on the steering wheel and one in the tub I started the drive. Developer was diluted Kodak HC-110 B with extended processing time, rapid fix and hypo clearing agent (no rinses). Two hours later I walked into the darkroom shoved the film into the power washer, followed by foto-flo, heat dry, and began to print. Beat the two old pros who shot in-town games and got the best shot, so the cover of the Sports Section was all mine. They had a few questions and we all had a good laugh. I also had a bit of a mess to clean up. In two weeks I'll shoot my first HS football game of the season with a Nikon D7200 (8 fps) with a Tamron G2 70-200mm at 4000 ISO, 1/1000 at f2.8. I'll "key" the best ones and during a timeout, transfer them to my phone for a quick edit and crop, then send... I'll probably shoot five times more images (360 v 72), they'll be in color and in every technical way, a better image. I appreciate the megapixels comparison but the ability shoot under low light (without changing film) and instant editing is without comparison. Thanks for allowing me to take this sentimental trip.

I'll never not be mind blown by the thought of how someone could have figured out how to make the chemical film camera process to work before anyone knew about it in the world.. It seems like such a obscure & tricky process to invent and how to fine tune it overtime in the early days

In our family, dad shot exclusively Kodachrome 64 with a Zeiss camera and had the typical family gatherings for slide shows of vacations and holidays! No matter what the MP are, nothing replaces the family gatherings, laughter at vacation and holiday pictures, and even more so when Dad would reach back decades to pull old slides into the show!! Best family gatherings I have memories of and wish more people would have that experience! My first camera was in 1980 when I bought a Canon A1 and FD 24mm f1.4 L, and yeah, I shot slides, although I used more 100 and 200 ASA. There was a company that bought unused 35mm movie film and cut it up into 36 exposure rolls, which I used for many years. I loved film. Often there was one chance to compose and get "the shot", cable releases for birds in nests, etc. Life was good. Now with the single press of a button and pre-capture on my R5 MkII, I shoot the equivalent of an entire roll of film! I still have my old gear, the A1 has to too characteristic shutter squeak, but I don't use it anymore.

In short:
-How many megapixels is 35mm film?
-No.

This is a question that I've asked as well after adding film back to my tool bag. (I shot film for ~30 years). I use a service to develop and scan my negatives (I used to have a Nikon scanner) and I have to believe that converting to digital introduces some another quirk. Having my film scanned at the highest resolution offered (pretty much the same max offered everywhere), the ability to crop is incredibly limited. Although the amount of data I receive is huge, the actual usability of that is limited). I'd say 10MP is the effective max. This contradicts many BLOGS who reference good scientific measures. In summary, there is the scientific number, and then the actual resultant usable image. For sure, 35mm film is awesome, just don't expect to crop. Knowing I can't really crop that much in post forces me to be even more purposeful when I pull the trigger. Thanks for the video. Disclaimer: I'm an idiot.

Having taken both 35mm colour and full frame digital photographs for many years, I sometimes asked myself the same question as the one which you have raised. I mainly use Kodak Gold 200 colour negative film metered at 100 ISO since it offers realistic colours, reasonable speed and relatively fine grain compared with most other C41 emulsions. I have observed that the grain size and this emulsion's inherent sharpness limitations (acutance, I think is the term) only really become apparent at print or display sizes of above A4 when viewed at a normal distance, i.e.at around arms length. At such a distance, the human eye will not detect "digitization" at resolutions of 200 dots per inch or finer. At A4 size 200 dpi equates to about a total of around 4 million dots over the whole area. So my conclusion, in answer to the question, is 4 Mp for this particular film type. I also checked this out by shooting the same scene, using high quality lenses, with a 35mm SLR and with a 36 Mp DSLR while cropping the latter by 2/3rds vertically and horizontally so as to only use 1/9th of the sensor area: i.e. the central 4 Mp of the sensor. The resulting resolution was subjectively similar to that of the 35mm images when viewed at a large magnification. The negatives had been scanned with a 24 Mp camera, by the way. Using the same film type in a 6 x 9 cm camera therefore ought to provide the equivalent of 22 Mp resolution since these negatives have 5.5x the area of the 35mm ones. So this should allow images to be viewed at a bit over A2 size before the resolution starts to break down when viewed at arms length, and this is exactly my experience. Of course, once one is making prints of A2 size or bigger, they will normally be viewed from a greater distance than arms length and this will make them seem sharper still - which is a win-win for medium format in general.

This video would be much more useful if you provided analysis and calculations

As a new photographer I would shoot Kodachrome 25 (ASA 25) for very fine outdoor shot. And got great resolution even when projecting it onto a screen and getting a 10 foot image. It wasn't until you got within a foot of the image that you could see the grain. For indoors I would shoot Fujichrome 400 many times pushed to 800. With Kodachrome 64 and 200 for the inbetween days.
When at technical school I was able to use a land camera that was used for surveying. It used glass plates with an ASA of 1. I shot a building from about 300 feet away with an effective 50mm lens and was able to read the dials on the gas meter, each of which was the size of a small watch face. I could read the hand, the numbers, and the makers mark on the bottom when I'd blow it up.
The nice thing with digital is that it is: fast - no waiting a week for developing, cheap - I don't have to pay for developing, relatively unlimited - with a 64Gig memory card I can shoot all day vs having to carefully decide if a shot is worth 1/36th of my roll. And it is normally viewed on a computer screen.

I’m so glad I came across this video. This is exactly what I have been. Wondering about lately. Thank you so much. I have a Minolta SRT 201 from 1977 that I still use to this day. I truly love my good old-fashioned, film camera! However, I do have a camera that has 48 megapixel definition.

My Cannon 9000F Mark II comes with attachments to scan 35mm, 70mm, 100mm, and 120mm film. It will scan color positive and color negative film at 9600DPI and has the option to scan at 48bit color. A 35mm film picture scanned at 9600DPI at 48bit color even with .jpg compression will give an output file anywhere from 50Mb to 65Mb.
The output of this Cannon 9000F scanner is stinking AMAZING. My dad had a 120mm camera back in the 1950's to 1960's. There is a photo my dad took on the side of a mountain in North Carolina looking down at the parking lot possibly 1000Ft below. Scanning the 120mm film at 9600DPI and 48bit color giving an output over 1Gb and then looking at the output picture of the scanner, zoomed to 100%, I'm able to read license plates of the cars at the bottom of the mountain. And... this is 1960's....
What a great scanner Cannon 9000F is.

Back in the early 2000s I took a correspondence course on photography from the New York Institute, and one thing I remember them saying about digital in that day was that it was a long way from becoming comparable to the quality of film. They talked a lot about the size of the silver halide crystals in the emulsion layer of the film compared to the size of the effective pixels on a CMOS sensor, and how you could blow up a 35 mm into a print the size of a wall mural and still have acceptable quality.
At the time I had a 5 MP Sony 717 and it took fine photos, as long as you didn’t try to blow them up too large. But they were right, it still didn’t compare to 35 mm film.
One thing I’ve always found fascinating about color in digital cameras, is how you lose about a third of your color resolution because you have to dedicate about a third of the space on the CMOS sensor to one of the three colors. So I always wondered how for instance NASA was able to get such amazing quality in the photos taken by the Voyager spacecraft using 1970s technology.
In scientific digital cameras they get around this by making the sensor sensitive only to light levels and not color. Essentially it’s a black-and-white camera.
Color was applied by shooting multiple exposures through different colored filters, and then combining these into a “true“ color image. So it’s possible to get some amazing detail out of an 800 x 800 digital image, using the right techniques.

Interesting video. I used a Nikon EL2 for many years. When I got a Canon 6D, I finally felt like I had a digital camera that could come close to achieving what the EL2 could.

This brings up another subject: the effect of deleting the Bayer filter and solely measuring light intensity for every pixel, as in Leica’s Monochrom cameras. As you noted at the end, one’s perception (or “feeling”) certainly plays a part, similar to comparing ultra clean digital music files with the characterful sounds from a record (and phonograph).

This was figured out years ago by those of us pro photographers making the transition to digital. Nothing new here. Shot with foveon sensors for years. Now I shoot with a Sony A7 R 3. Love it.

The answer is around 4:30 (and it's an approximation but good enough) The rest is just techno barb.

I scanned a Fuji Reala at 20 megapixels and saw pretty fair details on 100% magnification, but it reminds me of ISO 1600 on digital without noise reduction - when you still see details at the pixel level, but as if behind a veil of noise.
If you like this kind of image structure, you can call it 20mp - But that's certainly not what a Shutterstock inspector would like, for example.
I would roughly estimate the detail of amateur "200" films to be about 6-12 mp depending on your tolerance for this veil of noise. But it always makes sense to scan at a higher resolution.

Going back to my darkroom days, on an analog 11x14" print of a full 35mm frame, upon close in inspection, I could clearly see the limits of the 35mm film format.
One advantage was there was no software updates needed to print a negative using an analog enlarger onto photographic paper - but the process of getting a near perfect print was time consuming

As both the shooter and consumer of my images, I have to point out that whatever images are captured are functionally invisible until displayed in/on a medium a human eye can see - a print or a screen. Also, we know that either image technology allows for enlargement of some kind and some amount, and that all image technologies must deal with a range of available light and whatever effects there may be of camera motion during the shot.
For a color print, you will have the result on photo paper at the maximum resolution of the printer. It turns out (say the people who sell prints) that, while an inkjet printer such as might be part of an automatic printing machine, or even the one on your desk, may produce a resolution of perhaps as many as 600 x 1200 dpi of ink spit onto the page, color dots are composed of varying proportions of CMYK "spits", which necessarily run together. The functional dpi will be closer to 200. And, curiously, that is more resolution than the human eye typically finds useful; the image arrives on the retinas of our pair of "cameras", from some variable distance in some variable lighting, and then undergoes the brain's "software" processing. It's instructive to use a magnifier on such a print, and then on color images in magazines such as Flying.
For images on a screen, so much of our perception depends on the size of the display or the projector screen (yep, we still have some).
Enlarging technology: of course, historically, we have the best that optics can do, and that is very, very good, with a crisp hi-res image to start with. Digital enlargement can interpolate, creating additional pixels as needed; it's probably more common to set the number of pixels to what can be represented on print media, or for transmission, which is usually a reduction. Anyway, we have a LOT of post-processing control available in the software.
But something we can have digitally that is VERY difficult to get using film: zoom and corresponding cropping in the camera. A 20x zoom point'n'shoot camera tucks in your pocket, costs less than an SLR body, and allows the use of the glass to capture a full-res image, cropped and framed as you want it. You can't do that for a similar zoom range in 35mm without something much heavier, bulkier, and more intrusive, meaning you might not even have the camera with you. Did I mention the cost of the camera? And the film? And the processing? And the time before you can view the images? Or the incredible NUMBER of images you can get onto an SD card? All of these concerns mean that the digital camera has a much higher chance of capturing the images you need/desire, and at a higher FUNCTIONAL resolution.
Is film dead? NO! But it is now definitely a much more "technical" choice, and, due to the change in scale of the market, comparatively more expensive than decades ago.

Yes i would like medium Format films 6*6, 4,5*6, 6*9 with common 120 Films, and even large formats would be interesting. And of course the difference between B&W and colour (positive/negative)

Don't forget the darkroom. The type and strength of the chemicals used affect the resolution. Along with processes like dodging, tinting and solarization. In black and white, Microdol-X developer will give you a finer grain structure than D-76. Finer grain makes the image sharper, larger grain (D-76) makes the image softer. So an image of my sweetie's tongue gets Microdol-X, her curves get D-76.

I spend a fair bit of time a while back messing about with anti-aliasing pixel lines. It's a neat trick where you can trick your eyes into thinking you are seeing a nice clean edge, but close up it hardly looks like an edge at all. There are all these algorithms for drawing lines and circles to give the best approximation as well and some mathematical tricks to speed up computation. It was kind of hands on learning.

Very nice write up. About 22-23 years ago when I was still shooting professionally I got my first digital SLR a Canon D60 which was a 6 mega pixel camera. I was doing some head shots for a client with strobes etc and did a side by side head shot with the same lens on a film SLR and the D60. The film was Kodak Portra 160 and I used an ISO setting on the camera of 125. I then had 8x10 prints made by from each image by a top notch lab and side by side you could not tell the difference in image quality. There was some difference in the color tone but you could not tell which was digital and which was film. IMHO the new digital cameras are so versatile and the image quality is so good there is really no reason to ever shoot film.

0:21 I tried scrolling through as many comments as I had time for so maybe someone else also noticed that the person rewinding the film has the rewind lever pulled up. - Just a dumb observation, thanks for the lively discussion.

Appreciated the information, but i hope nobody actually worries about this or thinks it's particularly important for the practice of photography.

Resolution of color film tends to be only 5-10mp; 20 you'll get on good black and white film. Film is better at capturing color resolution because of its multi layered approach, so its color resolution will match its luminance resolution. This means that if you have a 8mp resolving piece of 35mm film you'll get 8mp of both color and luminance resolution. In digital terms you'd have to use a 24mp sensor to get similar color resolution, although now you obviously get much higher luminance resolution. Overall pretty good take tho, and good explanation. I just recently saw a video of someone explaining this in a horrible and wrong way; this is way better.
Also film definitely doesn't have more dynamic range than digital sensors anymore.

I've been shooting raw since 2003, since I had my first DSLR (Canon 300d). There has been a steep improvement in algorithms for interpolations, i.e. the calculation of the missing colors for each pixel. So the resolution of the digital cameras has improved. in fact even the pictures from old digital camera's capable shooting raw have improved. Processing raw images from 2003 in 2024, show an increase in resolution.
That said, the simple megapixel count is very hard, considering digital camera megapixel count is also still 'unstable'.

I have been on top of this topic when I was considering switching to digital. Made tens of comparisons of final pictures mostly on A3 and A2 sized prints. With ISO 100 the Canon 10D was with its 6 Mpix trailing a slight bit behind a good resolution film at scanned on a professional drum scanner. So the decision was clear with upcoming digital resolution increments.

Around 20 years ago when 5 megapixels became available, that was good enough to compete with 35mm film. Modern sensors are the product of another two decades of development and are far superior to the older 5 megapixel sensors. Shooting RAW images and post processing can at least equal and usually surpass 35mm film with most limitations imposed by the physical size of the lenses and mechanics of the camera being used. Bottom line, most phone cameras are better than film cameras nowadays and certainly in terms of resolution and low light abilities.

IMAX, which is the highest quality you can get in film making still uses chemical film today. That says it all. Chemical is superior in almost every sense but the practicality of digital filming is unbeatable.

as far as I'm concerned the only 35mm film worth comparing to modern digital is Kodachrome. that stuff was amazing to me as a kid. Landscape shots on a sunny day with big clouds were amazing. Now here's the thing I miss the most. you could put those slides in a projector and they were amazing, you could get lost in them.. Even if modern digital photos are as good or better, there is no consumer or prosumer way to view digital photos in amazing a way as I remember seeing kodachrome slides with our old 70s slide projector.

You hit the nail on the head when you said that film/digital is subjective, many years ago it was a big subject when MPx was small in cameras in the late 1990s most professional comments that Digital would be as good as a film when it reaches 12 to 15 MPx. just my 2 pennies worth.

I've done a load of scanning and typically scan around 2400dpi - a lot of the images i turned out were about 3200 x 2200 which is approx 7 megapixel. I've scanned others at 3600, 5600, and 7200 dpi but you get no more real information from a 35mm film. you're just burning space on the computer you don't really need to. what i will say though is with slide film , the grain is so subtle you can blow it up many times over on projector on the wall and it looks great.

What a lot of interesting, well-informed and well-explained comments! Thanks to you all!

Having used a professional Nikon ED5000 film scanner to scan thousands of high resolution slides and print films to digital the very best low ISO color film stocks, film has just over 4,000 lines of vertical resolution at best and is about the equivalent of maybe 12 to 24 megapixels at best. But with digital you can eliminate noise without eliminating detail and that leaves even the best film in the dust. Don't over romanticize film. Shot it for decades. Never ever felt the need to go back. Just the opposite even shooting early 6 MP DSLR's.

in a sensor "each pixel" is basically a photodiode which contrary to what is said in the video, is not capturing "either red, green or blue light". Each photodiode in a sensor only captures one level of incoming energy photons and in a sense a sensor is basically color blind. It is up to the Beyer matrix filter sitting in front of the sensor matrix of photodiodes to filter out incoming white light and associate either a red or green or blue value to each underlying photodiode, so that a subsequent interpolation is made on a grouping of several adjacent pixels for interpolating a "single pixel" colored value. This is why camera sensors dedicated to black&white phtography (for instance Leica monochrom cameras) have a higher resolution compared to color cameras, simply due to the absence of the Beyer matrix filter removing the grouping interpolation and allowing to use each photodiode of the sensor to render a pixel in final image.

Very good presentation of what is a very tricky subject ! So easy to go. off track on this one .

Camera manufacturers would like everyone to believe that the megapixel count is the most important spec, but in reality pretty much nobody needs as many megapixels as are available on even mid-level digital cameras. Let's not forget, the Nikon D1 was "only" 2.4 megapixels, and that was a pro model that produced results deemed good enough to publish.
Resolution does not necessarily equal image quality. Sharp pictures come from focus, aperture, correct exposure and camera steadiness. Crap photos in high resolution are still crap. A while back, there was a video of article somewhere that challenged people on the street to tell the difference between prints from a high-res DSLR vs a comparatively low-res DSLR. Almost nobody could spot the difference.
Ah, but what about massive prints, like the ones on billboards? You need an extra few megapixels on that as well, surely. Maybe, if you plan on looking at them from 6 inches away. At the correct viewing distance, it doesn't matter.
Digital is cheaper, faster and more convenient for the likes of news and sport photographers who need their results out there quickly, and this is doubly important in the rolling-news, always-online world we now live in. Has it produced better photographs? It's subjective, but I'd say the answer is no.
Does film have as many "megapixels" as digital? Probably not. Does this actually matter? No.

I have been using a 24 mp full frame mirrorless camera and a decent macro lens to digitize my old Kodachrome 25 or 64 35mm slides. For the slides of best quality (correct exposure, in focus), I get about 12 to 13 mp resolution.

Interesting comparison, but it does miss one aspect. When shooting the finest grain color film (the best I ever shot with was Kodachrome 25 Daylight and Kodachrome 40 Type A, which are no longer available), you can get really detailed images when shooting on a tripod and in excellent light. But, on cloudy days, you lose that and have to shoot at wider apertures or use slow shutter speeds. Forget shooting in low light because you lose too much shadow detail. When moving up to faster films, you get increasing film grain (an effective loss in resolution). And, going to really fast color films (say at ISO 1000 or higher) you get grain structures that make modern digital sensors shooting at ISO 12,800 look really sharp.

Long time ago, I used to prepare images for use in preparing masks for manufacturing chips in a University electronics department. The "measurement" for the resolution of film used was "line pairs per mm" that is the number of adjacent, parallel lines that could be recorded before they started to merge on the film emulsion (and consequently cause a potential short circuit on the mask). From hazy memory, the preferred film was a Kodak technical film who's name escapes me. For some reason the figure 2,000 sticks in my mind. This was specialised black and white, of course and not colour.

Monochrome film consists of minute silver salt crystal grains. The incidence of light alters the chemistry of a grain such that it decomposes to metallic silver when washed in developer. A grain is a classic example of a bi-stable and is perfectly analogous to a computer memory bit i.e. is a unit of information. In colour film the grains are set in dye of the appropriate colour depending on layer and whether the film is reversal or negative. It's always struck me as ironic that film is the original digital medium whilst digital camera electronics are made exclusively of analogue components.
A few years ago I looked up the specification for 35mm Provia. Fuji stated that Provia contains between 26 and 28 million grains. That would give Provia a resolution of around 4 to 5 mpixels in 8 bit. However the grains also contain colour information which complicates the calculations somewhat.

4mp-20mp is the general answer.
If you want details, find Ken Rockwell - Film Resolution article.
Full frame digital is 35mm photography equivalent (with sound strips area).
APS-C digital is 35mm motion picture equivalent (1.5x sensor).
S35 digital is 35mm motion picture equivalent (without cropping the sound strip area).
Highest 35mm film scan was 87mp x 2 = 175mp. Basically b/c our digital sensors aren't True RGB data. Most of our sensors are Bayer sensors, so you'd need a Foveon X3 Sensor for True RGB.
The closest we have currently to True RGB is stacked sensors from Sony which is in the Nikon Z9, Z8. Canon R5 ii, R1, R3, Sony A1, A1 ii. I'd have to look but I think it's in a few other models. But it's still not 100% TRUE RGB.

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Was pleased to see ‘my’ canon AE1 in the thumbnail! But as for the topic… it was a bit muddled. Detail and crispness was always my objective and to find out which is better you need to take an image of the same area (my suggestion is of a library bookcase) with each camera (film and various Meg side digital) then keep blowing up the image of each to find keeps it’s detail clarity for longest. Hence the preference of the image of a bookcase and the book spines. I’m pretty certain many if not all the digital images will lose definition before the 35mm negative. We are of course discussing regular cameras for normal every day use and accessible by the general public.

Back in early 2000, there was an article stating film resolution was equivalent to around 3MP by doing pixel-peeping of the images. Wonder what changed now to up that equivalency to 20MP.

Very useful info! Thanks!!!

So to summarise, both variants offer more than enough resolution for almost all applications. The advantages of film obviously lie elsewhere, in a certain something.

A direct comparison of imaging media can be obtained by imaging a resolution test chart using the same high quality lens. The linear resolving power, in line pairs per millimeter can be directly measured, which value when squared supplies a functional pixel count per unit area ratio.
This can be conducted over a range of test chart contrast, which supplies information on useful dynamic range.
In all instances, noise in the medium must be accounted for statistically by taking suitable measures to mitigate. For film noise is the grain structure; in digital sensors noise is a combination of intrinsic pixel sensitivity variance and thermally induced spurious variance.

Nearly twenty years ago I went to a presentation at the University of Washington that was the unveiling of one of the few full size copies of the Big Book of Bhutan, which measures about 3 feet by 5 feet. About half the pictures were taken with digital cameras. I asked the presenter at what point the digital matched the film cameras and he said eight megapixels.

Based on scanning my highest rez techpan negatives with a 33MP (5400dpi) Minolta scanner, I would get say 6-8 real megapixels. Before this experience, I would have estimated 12 megapixels. The advantage of using the 33 megapixel scanner was that I was able to see all of the grain. And I thought my contax camera was so much better. In terms of dynamic range, slide film got about 7-8 stops. Compare to my new Sony which gets about 15 stops of dynamic range.

This is a fun subject, and interesting to analyze. Of course, the evolution of digital for the past 25 years has been amazing, but now "resolution" became a bit of a nerdy subject since it is an easy thing to achieve. Of course medium format digital is fantastic, and when we have the digital viewfinder it gets amazing, since reflex is definitely dead, and for a good reason. And the end of reflex is a great digital conquest. There are photographers using 4x5 cameras with analog film, scanning the chromes, to make digital prints and other photographers, like Sebastião Salgado, shooting high resolution digital, and making internegatives on 4x5 analog film to make silver print enlargements. As a photographer born in 1960, who has done analog and digital, I say this is a pretty exciting era because one can do anything, as I do digital and also platinum/palladium contact prints from 5x7 negatives. But, a 6x7 image on Fuji 50 is hard to beat, as is a projection in 2¼² with a Hasselblad PCP-80 slide projector is an image hard to match in terms of spectacle. Then there is the magic of analog that digital definitely does not have; the Barthes' "footprint" which digital can never have. When I see a Daguerreotype, it is impossible to disassociate from the fact that the very image we are seeing was in the "physical presence" of the subject it captured, much the same way a chrome is, and with digital this is never the case. And as an environmentalist, I thank all the Goddesses and Gods for digital photography, for it ended the nefarious C41 one hour photo market that was so polluting.

From my experience digitizing all my old negatives and slides, I can reassure that there is no way spatial resolution or color dynamic range in a film is even comparable to what can be achieved with a modern digital camera. This is so true that the advent of digital cameras forced the industry to come up with new and better lens designs capable of taking advantage modern sensors. Having said that, I think film is cool and some people even like the film grain, which looks better than the noise in digital images. But that's purely subjective.

Excelllent video. I agree with the estimate of 20 megapixels for film. 10 years ago 16 megapixels seemed to be the consensus but it's definitely in that ball park.
Lots of people here with much lower estimates but they're not taking account of 20 years of lens developement since film cameras were the norm. Also, the comparison has to be with a scan from low ASA slide film.

Bayer sensors are a bit more complex. While it looks like they are missing samples what’s really important is how they are evenly spaced and distributed where only a single in between sample is missing.
The debayering process helps interpolate or guess what those missing values are. So it’s not just you need 4x4 pixels. It’s a lot more complicated math than that where each missing red pixel looks to the red pixels on each side and the red samples above and below to the side.
In some cases the process can even look at the blue and green to determine what is really going on with the detail.
Green is much easier to predict since it has a real pixel on all four sides of a missing pixel. This allows the guessing to be pretty accurate yet still a bit fuzzy. It’s an average of those surrounding values so it will naturally create a softness.
Green is used more for the luminance or brightness which help the detail of the image more.
While film does not use pixels of course what we can compare is the acutance which is the ability to resolve fine natural detail. At a certain point film resolves no more details and if we keep scanning larger we just end up with larger blobs of grainy color. At a certain point you gain no added detail by scanning larger. This is precisely why medium and large format film exist. In order to get more detail you need a larger type of film. You need more surface area.
Distal uses pixels and as long as you don’t zoom in or blow it up you should never see those pixels.
We compare the acutance of film and digital and try to come up with the point where they both resolve the same fine detail. Usually when looking at them at the same 1:1 scale. This is how we can say film resolve X amount of pixels. It’s the point at which the pixels of a digital image resolve the same amount of fine detail. A blade or grass looks like a blade of grass on both.
My general rule I borrowed and adapted from cinematographers is that film roughly resolves around 150 points per mm. That puts it right at the 20 MP mentioned in this video. 5400x3600 for 35mm photography. S35mm film for motion pictures is the same film but turned sideways so it’s only 24mm wide. That means it’s about 3600 pixels wide. That’s why 4k has in some way surpassed the acutance resolving detail of S35mm motion picture film. That’s what is shot. What’s projected in cinemas on film is typically only about 21mm wide because it makes space for the audio. That’s 3150 wide or much lower than 4k video.
What about that bayer loss? Well yes that can happen on a 4k only sensor for video. We have over sampling for that where a 6k or 8k sensor is used to overcome that bayer loss. Digital photos have higher MP counts for that same reason. A 45 MP sensor scaled down with have no bayer sensor loss. Not that it even matters. A 20MP is more than capable of resolving the same detail since digital is naturally more precise.

In the comment section I see people talking about using digital image correction to insert data that is not originally captured in the sensor. That is not acceptable for comparison purposes because these added or interpolated data are not captured by the sensor itself. When comparing things there has to be a solid boundary to define what are we actually comparing. Similarly digitally woven images (which consist of several exposures) cannot be compared to a single film image which is captured with a single exposure. Let us be strict about what we compare. An untouched-up film image can only be compared to the digital data directly and instantaneously captured by the digital sensor. That would be a more valid comparison between sensor and film. 😅

Thank you for just getting to the key points...quickly.

Some of the most pleasing images I've made were with the 5mp Olympus E-1. This is a complex subject.

It depends on the film, the lens, your focusing abilities, your scanner and your scanning abilities. I have managed to pull ~15 Mpixels on some B/W film with my sharp Pentax lenses and my tiny Pentax ist camera. This is to say when scanned with 3200dpi and there are meaningful value changes among neighboring pixels. But it's hard to achieve such sharpness even with digital cameras. A canon 80mm f1.4 would have at max 50lp/mm (line pairs per milimeter) resolution at the center which means 100 pixels of resolution per milimeter. Assuming a 35mm film has 36x24mm dimension then "at best" we should be able to obtain 3600x2400 = 8.64Mp pixels resolution limitation originated from the lens. So there is that and it is not entirely about the film in 35mm. If you switch to medium format and use high quality lenses like 75-80lp/mm Rodenstock or Scheneider ones then you can easily achieve true 50mp on 6x4.5 format.

I use film for 30 years and switched to digital 20 years ago,I'm not going back just like I switched from vinyl to CDs ,not going back.

The amount of film grain depends on the film speed (ISO/ASA). With smaller film speed numbers, the grain is smaller, too. Landscape photographers used very small (100 or less) ISO numbers or "slow" film to get fine detail while capturing big vistas.
On the other end, high ISO film (1600 or greater) has very large grain, and is way more sensitive to light. Therefore, high-speed, low-light photographers used "fast" film to capture images at night without flash or sports action shots.
Comparing digital to film is like comparing digital audio to analog. In theory, a needle on a vinyl record has no limit in frequency range. The same is true for magnetic tape. It depends on the medium's speed and the cartridge(s) or tape head(s) used to record and play the medium. Digital audio, like a digital camera, depends on the sample rate (resolution) of the capture device.
An arguably more important factor when considering a digital camera is the physical sensor size. Larger sensors capture more light, not because of the megapixel count, but because they have a larger surface. Therefore, for low-light conditions, it's best to use a large sensor camera if available.
However, I have to qualify that, too. Modern cell phone and security cameras capture a lot of light on a small sensor; enough to produce a full-color image from almost pitch-black conditions. Much if this is done in software, but it shows how far we've come with digital image technology.

I'd like to carefully question that. I recently digitised my old film slides and thereby realised just how poor the resulution was. It was more like 3-5 MPixels. I didn't use a very expensive lens back in the day, but it was no crappy cheap one either. I used a professional scanner (~2000$) that I rented for this purpose and quickly realised that it doesn't make any sense to scan the slides at the maximum resolution the scanner could do. Which, btw, was also

Since both use the same lens, lens shouldn't be a factor here. Analog films use photographic emulsion coating on the surface. So the resolution is determined by the particle size inside the emulsion. To make an extreme example, if the particle is so big and you can only fit 4 of them on a 35mm size, then the resolution is 2 x 2 and you can't record any higher details than that. The average size of silver-halide particles in film photographic emulsion is between 0.2 and 2.0 microns (μm). Since 35mm film size is 24mm x 36mm, you can have maximum 120,000 x 180,000 pixels. That is 21,600 megapixels! This is the reason there is no way a CMOS can catch up. But since human eyes can't detect that much, there is really no practical use of that many pixels.

Very interesting and important to me! Thank you!

Depends on the ASA of the film. I typically used 200 ASA and this gives about 12MP. Lower ASA will give higher resolution and vice versa. OTOH there aren't pixels only grains oriented randomly on the film, so you won't see pixelation, but merely be unable make out finer detail.
By the time I got a Nokia N8 [phone] with a 12MP camera with decent optics, it exceeded the ability of the naked eye.

Kodachrome 25 was about 25 megapixel, there were some black and white film that was enen more. used for areal photography..

There was a sensor that stacked the colors on top of each other (the Foveon), so no Bayer filter needed, each pixel is all three colors... however, it never took off. I guess it was just cheaper to make a Bayer sensor that was massive compared to the Foveon and then use clever software to do a really good job of the de-Bayering process... probably because making a proper Foveon sensor was rather difficult and it may have had sensitivity issues as well.

I still remember the Kodak Ektar 100 color negative film. Advertised as having very fine grain. We loved it for outdoor pics in sunny Florida. Could you really zoom in on an invisible mountain climber 25 miles away as the Kodak ad implied? Not really. But the stuff was darn sharp when used correctly.

Unless I missed it someplace... what ASA would this be equating to? The speed of the film vastly changes the "resolution". Monster difference between 1000 and 100. Want to see grain... shot 3600black and white and "push" it to over 12000.

Thanks for the explanations and take care of yourself.

From my photography experience, going back to the 80s:
100 ASA tended to be very fine grain, but only in daylight (or with a good flash). 1000 ASA was great for low light, but film grain was much larger.
For low light digital, thermal noise is a thing. Larger pixels are more likely to detect a photon, meaning a better signal/noise ratio.
For astrophotography, a sensor below 24MP will have less noise issues than a 48MP sensor. Unless you actively cool the sensor, or work in cold climates, which in turn impact the lifespan of the camera battery. A 3 hour exposure, in a snowy climate, is educational.

I just enjoy taking photos, in the 60s I developed my own b&w (120 film) just cause I could, progressed to 35 mm, now on digital, taking everything in to account (as a non professional) digital is very much more practical for me as I don't have to worry about all the settings as I use photoshop for adjusting....A bit off topic but I have one of those old bellow cameras where it was glass plates and a cloak over the camera for viewing, I think its called a victo, Thornton Pickard.

Just as different grain structures provide different resolutions there can be variety amongst digital sensors with the same pixel counts. Some Bayer sensors now do pixel shifting and can record each color channel on every pixel. Foveon sensors also capture colors separately and can yield higher resolutions than the numbers suggest.

I always thought it was more about the iso rating. I usually shot with 800 iso indoors which gave a warm photo under the light bulbs in use back then but used 100 iso or lower outside. Personally I think that with a digital camera anything above about 24 megapixels is a waste unless you are are using tif or raw format because you lose all that fancy resolution due to image compression.
Spy cameras used to produce micro dots used isos as low as 1 bright lights (when possible) and long exposure times; the resolution was way up there.

A comment I heard from a professional portrait photographer back in the 90's was that color in film was "layered" in a way that digital couldn't capture. I hear you saying essentially the same thing. I appreciate the explanation of color bits / pixel as a way of explanation. I also wonder if, in a burst mode, it might be possible with something electronic, like altering the sensitivity of one of the colors, or mechanical, like a minute shift of the image, might increase the color depth.

35mm film is capable of producing stunning photographs 📸 the only problem is finding a near you that still offers film development. I still use my Canon 35mm, I either mail my roll to reputable shop or I drive 30 miles to the nearest photo 📸 shop if I need the prints sooner. Most of my best photographs are on 35mm. Entire vacations shot on 35mm film.

A number of factors not discussed (meaning included in the evaluation) are film type, film ISO, development (and development technique) as well as B&W or color. In general your analysis is well done, and reasonable. My experience (as a digital imaging scientist/engineer since the late 70s) is as a general number, 40M is a good number for a very good film, with very good development in good lighting. It can go as high as 100M for very specialized films, and development process, to as low as 8M or less for some "chunky" films in low light. In reality, it's about what you are looking for. Though there are some decent digital processing filters to turn digital into having the "artistic" characteristics of different films, personally, I prefer to just shoot film (B&W), develop it, scan it at 4000DPI/5200DPI and print it on a high quality photo printer. But, that's just what works for me, as I have a film processor and shoot mostly B&W. Digital cameras have come a LONG way, and they are very very good for a very attractive price for the quality of what you get these days. If you use medium format, well, that's an entirely different ball game ;-)

Please do a 4x5 and 8x10 film equivalent. I would love to hear it.

I disagree with your premise. My thoughts after shooting full time for the last 38 years is that film, on its best day, offers about 6mp.

One thing that is forgotten is that digital sensors are essentially flat. No film camera, except the Contax with a vacuum back, achieved anything close to flat in the "film" plane.

Regarding to the bayer-pixel pattern you tell the half truth. A 24 mp digital sensor (6000x4000 pixel) has not a color resolution of only 6 mp (3000x2000, color pixel in 2x2). The bayern pattern is interleaved so output of the camera is a (calculated) 6000x4000 color pixel.

And that's why for top Portrait photographers still love their Hasselblad 2.25 x 2.25

The answer is on 2:20

We've started displaying photos on the walls of our company's hundred year history. They are all digital prints. It's amazing to see the clarity on some of the really old photos. I even joked about having so many pixels back then.😊

I used to develop all my own back in the day 120, 35mm and I'd say there woud be great variation depending on the lenses, film, exposure, chemicals, cleanliness, enlarger and paper used. It's a lot easier with digital, no problems with dust and drying marks either. I do miss getting away from the rest of the world for several hours and getting lost in the darkroom though !

let's compare prices - 36 film + development + scans is like 40 eur now. this is roughly 1 euro per image. digital camera costs like 3000 eur and lasts like 100k. typically 30k before the new purchase and it goes to the trash/second-hand market/box in some basement - this makes 10 cents per 30k scenario and 3 cents for the 100k.

The limiting factor for resolution is normally the lens. As a useful approximation, the resolution at the image plane is about 4f/3 µm, where f is the focal ratio. The Nyquist-Shannon sampling theorem requires that pixel pitch be at most half of this. Unless you have the budget of a space agency, aberrations normally mean that resolution usually is best at about f/8, and becomes worse for apertures wider than this (smaller f).

Very controversial subject, nicely handled. It’s super interesting. I’ve seen 20”x30” prints taken from ISO 100 Kodak Gold negatives back in the day look extremely sharp and I’ve handled scans from old 6x6 negatives which were amazing. The truth is they’re all good.

Thanks for attempting a brief discussion of color but I was shocked that you ONLY touched on the BAYER filter array and did not attempt ANYTHING on the Foveon sensor that was used by Sigma in their cameras. I worked with film for 30 years as well as producing prints via dye transfer, and have shot with most of the major brands (Canon, Sony, Nikon, Fujifilm) and CCD and CMOS sensors, but I am still surprised and delighted by the lovely color quality of the Foveon sensor. You should try it. Then do a review.

a typical fine grain size (of silver halide) is 3 micron

What I want to know is:
1. Why can't you set the resolution and memory (bites) size of a picture taken on an average mobile phone?
2. For "family pictures" I don't need a resolution so high I could project it onto the side of a building so why do they set it so high?
3. The memory size of a picture or video is important for saving and passing on, but I don't want to have to manually resize every picture just to send by email. Is there a shortcut?

That depends on which film and which dye-couplers are used. Kodachrome 25 was about 12 megapixel equivalent.

I remember scanning color negatives with an epson flatbed scanner accessory at 1200 dpi. The results were pretty good when printed on A4 photo paper. Although today that cost would be prohibitive.

Excellent video 😮!

There are a number of factors here:
1.) What film are you using? There are finer-grain films and films with less fine grain. Kodak Vison 3 is a very fine-grain film, for example.
2.) What speed film are you using? Slower speed film, shot in bright light is going to keep a finer grain. Pushing that same film in lower light is going to result in larger grain. Higher-speed film is going to have more grain by default.
3.) What lens are you using? A prime lens that allows more light in is going to help make a sharper picture with finer grain. A zoom lens that allows less light means you will have to make even more sure that your subject is well lit to keep the film from having to push itself harder, resulting in larger grain.
4.) How is your light? Having your subject properly lit means that, once again, the film won't have to be pushed as hard.
Regardless, pixels and grain in film aren't the same thing. Pixels are an exact point. Grain is more organic, and is less defined. Grains can complement each other more easily than pixels.

I agree. Especially from some other tests i've seen. You nailed it. But film cannot give 12,14,16 bit color depth

Very helpful video. You are correct about film's better dynamic range. We've seen the NASA film videos of the Saturn V blasting off and we can still see blue in the sky when the lens is focused on the bright flames of the engines. In comparison, the Space Shuttle videos using digital cameras show the sky washed out when the cameras are focused on the solid rocket boosters.