Tom Mann
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There are two very different and equally valid meanings to the term, "resolution", as applied to digital images:
#1) "Resolution" is the dimensions of the image in pixels.
#2) "Resolution" is the number of pixels per inch (on a display) or dots per inch (when printed).
The amount of confusion caused by having two meanings for the same term is unbelievable.
Resolution #1 tells you the amount of information contained in an image, no matter whether it is on a tiny screen or spread out over a poster-sized print. #1 can't be increased without asking your software to guess at the new information (RGB values of pixels) that didn't formerly exist. This is what happens when you check the "resample" box in the "image size" command in PS.
Increasing the number of pixels is commonly called, "up-rez'ing" and decreasing the number of pixels, "down-rez'ing".
Resolution #2 simply tells you how far apart the pixels are going to be when you display them, or how far apart the dots are going to be when you print them. Changing Resolution #2 (ppi / dpi) without changing Resolution #1 (pixel dimensions) means that the final image is going to change its real-world, physical size, but no new information (new pixels) is created. This is what happens if you don't check the "resample" box in the "image size"command of PS.
The minimum acceptable value of Resolution #2 (ie, ppi/dpi) depends on how closely you are going to examine the image. Specifically, you can get away with much lower dpi/ppi for a billboard (always viewed fro more than 100 feet away) compared to a small print in a gallery where everyone's nose is going to be a couple of inches away from the print.
The pixel dimensions, ppi and size are related by a simple formula: #pixels = (#pixels per inch) * (# of inches). Photoshop conveniently takes care of these conversions in it's "image size" dialog box, constraining you to manipulate numbers only in the correct fields depending on whether or not you have the "resample" option checked.
HTH,
Tom M
PS - This is an excerpt from an old thread. This question arose yet again, so, here it is for reference.
#1) "Resolution" is the dimensions of the image in pixels.
#2) "Resolution" is the number of pixels per inch (on a display) or dots per inch (when printed).
The amount of confusion caused by having two meanings for the same term is unbelievable.
Resolution #1 tells you the amount of information contained in an image, no matter whether it is on a tiny screen or spread out over a poster-sized print. #1 can't be increased without asking your software to guess at the new information (RGB values of pixels) that didn't formerly exist. This is what happens when you check the "resample" box in the "image size" command in PS.
Increasing the number of pixels is commonly called, "up-rez'ing" and decreasing the number of pixels, "down-rez'ing".
Resolution #2 simply tells you how far apart the pixels are going to be when you display them, or how far apart the dots are going to be when you print them. Changing Resolution #2 (ppi / dpi) without changing Resolution #1 (pixel dimensions) means that the final image is going to change its real-world, physical size, but no new information (new pixels) is created. This is what happens if you don't check the "resample" box in the "image size"command of PS.
The minimum acceptable value of Resolution #2 (ie, ppi/dpi) depends on how closely you are going to examine the image. Specifically, you can get away with much lower dpi/ppi for a billboard (always viewed fro more than 100 feet away) compared to a small print in a gallery where everyone's nose is going to be a couple of inches away from the print.
The pixel dimensions, ppi and size are related by a simple formula: #pixels = (#pixels per inch) * (# of inches). Photoshop conveniently takes care of these conversions in it's "image size" dialog box, constraining you to manipulate numbers only in the correct fields depending on whether or not you have the "resample" option checked.
HTH,
Tom M
PS - This is an excerpt from an old thread. This question arose yet again, so, here it is for reference.