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Is 8.0 megapixel good quality?
The short answer is that a modern 24-megapixel digital SLR offers around the same level of resolution as a good film scanned in a modern minilab. Ken Rockwell …has tested the Nikon D3X to this effect; see related links below. Now for the long answer. In Theory It's quite easy to work out the maximum theoretical resolution of film; manufacturers document this for their films. It's measured in lines per millimeter (L/mm); each one of these is roughly equivalent to two pixels in one direction. So all we need to do is multiply the width of the film (in millimeters) by the L/mm figure, multiply that by two. Do the same for the height, and there you'll have the maximum resolution at which a film, shot in perfect conditions, can be scanned, without interpolation (made-up pixels -- something we'll come back to later). ((lpm * 36 * 2) * (lpm * 24 * 2)) / 1000000 If we're going to make a comparison with a high-end digital camera, it's not fair to take a cheap consumer negative film for the comparison. For our comparisons, we'll use the professional Velvia film, at 160 lines per millimeter, we end up with a figure of about 88 megapixels. (If you wondered why we multiply by two, this is because one line = two pixels.) Yet, this figure does not show you how many megapixels a digital camera would need to achieve the same resolution. Most of a digital camera's "pixels" simply do not exist; they do not capture both red, green, and blue on each pixel, only one colour each. They then use Bayer interpolation to make up the rest. Ken Rockwell claims this "lie factor" as being about two. You may prefer different figures, but we'll use this. So, the final "megapixel" count becomes about 176. You could even up this somewhat if you take into account the fact that digital cameras love nuking any fine details with noise reduction, but we'll leave that aside for now. (Ken Rockwell ends up with a figure of 175 for the same film. Depends on how you round it.) This comparison is unfair to digital, though. This assumes that you're shooting test charts specifically designed to extract the maximum resolution from a piece of film; moreover, it assumes that very fine amounts of barely-resolved detail are just as significant as coarser details resolved near-perfectly. The real world doesn't work like this. Some people look at the MTF curve of the film, and see at what point the curve drops below 50%. This would leave you resolving 50 lines per millimeter, or about 8 megapixels (16 if Ken Rockwell's "lie factor" is accurate). You may choose another, just as arbitrary, percentage, look at your film's MTF curve, and do the math yourself. (An explanation of MTF curves is beyond the scope of a quick answer, and not particularly interesting anyway. Sorry.) In Practice This theoretical resolution does not translate into the real world very well. For one, you're assuming that your lens is able to resolve this much detail. It might not be, in which case it's wasted. Moreover, if you're going to make a fair comparison of resolution, you will do so side-by-side on a computer screen. You have to get the picture off the film onto a computer. Yes, you could compare prints, but then you'll be comparing your optical printing system versus your computer printer, which isn't fair. That or comparing how well your printer prints certain things. It isn't fair to shove a cheap print (itself made digitally!) into a cheap flatbed scanner, compare it to a digital file, and conclude thereafter that film sucks and digital rules. Yet, neither is it fair to assume that any photographer will be ready and willing to spend a small fortune on an 12,000 dpi drum scanner and then spend 30+ minutes on scanning one slide (or failing that, spending a hideous amount of money to have someone do it for them). More likely that they'll own a CCD film scanner, or drop it into a minilab to have it scanned for them. In short, the moment you leave the laboratory and take the comparison into the real world of photography, too many things get in the way for a simple resolution comparison to be made. Here, then, are various "real world" figures that some people here have offered. * 2-3 megapixels: Visual equivalent in a 4x6 print to 80-85% of the population, on a camera with a decent lens. * 3 megapixels: Some people use the comparison with an A4 print. A 3 megapixel camera will do this happily. * 6-8 megapixels: For cheap consumer negative film. People who own the 6-megapixel Nikon D70, or the Canon D60, say that a 20x30 poster print from one of these is roughly equivalent to that from 35mm film. Make of that what you will. * 12 megapixels: Another arbitrary figure sometimes offered. * 24 megapixels: Ken Rockwell's comparison of the 24-megapixel Nikon D3X showed that it resolved details about as well as Velvia 50 film scanned commercially. This is probably the answer that fits the real world of photography better than any others. And finally... There are varying advantages and disadvantages of film that cannot be captured in a megapixel figure, so barring some massive change in digital camera sensor technology, a fair comparison will never be possible. * The size to which you want to print an image matters. Digital breaks down in a nasty and unusable fashion when it reaches its resolution limit. Film gradually gets crummier till you reach a blurry mess somewhere around 40X enlargement. * Film has much greater dynamic range than digital. Another thing that doesn't fit into megapixel figures, but is very important. * Digital has noise issues. Film has grain issues. * There are good films and bad films, and good digital cameras and bad ones. As stated earlier, any comparison you make has to compare like and like. Don't compare a point-and-shoot digital camera (regardless of megapixels) with an expensive professional slide film. Don't compare a cheap negative film from Wal-Mart with an $8000 digital SLR. * Megapixels are irrelevant. Nearly any digital camera can be used to take amazing shots. Nearly any film camera can do the same. This has nothing to do with megapixels. If you're not doing enormous enlargements, or only viewing your pictures on a computer screen, then don't worry about it.
no this is not a good camera, 0.3 megapixels is really low && you want the highest amount you can get. 8.0 megapixels is about average. you want to get your megapixels from th…ere && up
My camera is 10 mega pixels. The higher amount of pixels the better value and quality the picture is. I assume that only 5 mega pixels is pretty low and the pictures that you …take won't be as good quality as, say, 10 mega pixels. In the article "Digital Photography: How many Megapixels Do You Need?" (at http://www.naturesimage.com.au/page/77145/default.asp) the professional photographer Andrew Goodall says good pictures up to 8"x12" can be taken with a 5MP camera:- You can produce good, high quality prints up to 8x12 inch (20x30cm), and probably larger, with a five megapixel camera. This is not a compromise; I doubt you would see any improvement in print quality taking the same picture on a ten megapixel camera. Certainly you would see a difference if you enlarged the photo to poster size, but (as we have discussed), very few people reading this article are likely to do that. Please do not see these comments as negative. I would never suggest that anyone who has bought a more powerful camera has wasted their money. Your upmarket camera probably came with an extra feature or two that adds to the fun you can have with photography. And of course, it is nice to know you could make giant prints from your photos…even though we both know you possibly never will. The important thing is not how many megapixels the camera has, but how well-focussed and sharp the original photo was in the first place. A camera with more megapixels doesn't make you a better photographer: a poor 6"x4" will be an atrocious A4 size photo (Hint: focus on the eyelashes.)
They can really be quite good, if you compose properly. Most major manufacturers will post sample photos taken with popular camera models. What I do is enter the model number …into a search engine, but click images. You often get not only pictures of the camera itself, but pictures taken with the camera. Some photo forums have galleries that can be searched by camera or by lens. I've seen 2 MP shots that were excellent and could be printed large with the right software. But they certainly wont allow you to do as much cropping as with 5 or 6 megapixels and up. Keep in mind that when you see a picture that's sharp and well done when viewed to fit the desktop, regardless of the original file size, you're viewing a sample that's been reduced to under 2 megapixels to fit your screen. 1280x1024=1.3MP and 1600x1200=1.9MP. [[User:Srobidoux|Srobidoux]]
8.2 megapixels is around average. I'll put it this way, 8 megapixels is enough. The only reason you would need more than 9 is if your cropping something very small.
Megapixels are just one measure of a camera's quality. The quality of the lenses is just as, if not more important, in terms of picture quality. And, pixels vary a lot in qual…ity--some are smaller than others, and result in worse picture quality. You can find 5 megapixel cameras for $90, and others for several hundred dollars. The difference in price is due to better mechanics and better optics. A tiny plastic lens, no matter how many pixels the sensor has, will give you crappy photos. A good lens, on the other hand, can give you clear crisp photos with 2 or 3 megapixels. And too many megapixels is not necessarily a good thing--more megapixels mean larger file sizes, which will fill up your hard drive (if you store them on your computer) quickly. 5 megapixels will give you files which will let you print 8x10 photos without a problem. Other things which will determine how clear your photos are include: Proper lightingLens qualitySteadiness of cameraProper focusProper shutter speedClean sensor/lens If you are concerned about photo quality, read some reviews of the camera you are interested in on-line, or go to a camera shop (and not an appliance store that sells camera) and talk to the staff and try out the camera. Check out the links below for more information.
Reliability, honesty, truthfulness, and kindness a little kindness can go a long way.
funny,smart, intelligent,supportive loving and caring
A good speaker will speak clearly and loud enough so the audience can hear them. If you are speaking to someone individually you need to face them and not fidget or anyt…hing like that. To be a good speaker you also should be a good listener. It is all under the subject of communicating.
Loudness vs Clarity
It is a great camera. that means it has 10.2 million pixels which to me is great. I have a 10.2 megapixel camera and it looks like HD.
Lots of details. Details are important! Good spelling and grammar are important, too. Make sure your letter is in good format and its ended with love, for family and friends, …sincerely for business people or for teachers, or best wishes, for really any one.
Well, that depends on what you are using the images for. If the images are going online to share like on facebook, 1.3 megapixels might be enough to not cause distortion if yo…u do not enlarge the images. For printing, say 8x10 or bigger, this will cause pixelation to be present in your photograph. I suggest paying a bit more and getting a camera with at least 8 megapixels for clarity.
yes it is. 14.1 megapixels is a really good camera
Not really, for a webcam it might be OK. 0.8 Mpx translates to about 320 * 250 pixels.
The size of the final print is often the most important factor, Canvas hides some resolution defects so you probably can get away with an image twice the area (1,4 times the l…inear dimension) of a print on flat paper. In the end, it is a matter of judgment if you look at the print and think it looks good then it does if it does not look good then it isn't, no matter how many pixels are printed.