Photo formats and sizes for printing. Comparison of photo formats with A4. What are the sizes of photographs for printing? Standard sizes Image size 10 by 15

Standard Paper Sizes

(GOST 5773-76)

Row A		Row B		Row C
Designation	mm	Designation	mm	Designation	mm
A0	841x1189	B0	1000x1414	C0	917x1297
A1	594x841	B1	707x1000	C1	648x917
A2	420x594	B2	500x707	C2	458x648
A3	297x420	B3	353x500	C3	324x458
A4	210x297	B4	250x353	C4	229x324
A5	148x210	B5	176x250	C5	162x229
A6	105x148	B6	125x176	C6	114x162
A7	74x105	B7	88x125	C7	81x114
A8	52x74	B8	62x88	C8	57x81
A9	37x52	B9	44x62	-	-
A10	26x37	B10	31x44	-	-
A11	18x26	B11	22x31	-	-
A12	13x18	B12	15x22	-	-
A13	9x13	-	-	-	-

North American standard

Popular name	ANSI classification	mm	inches	Aspect Ratio	Similar ISO format
Letter	ANSI A	216x279	8.5x11	1:1,2941	A4
Legal		216x356	8.5x14	1:1,6471
Ledger	ANSI B	432x279	17x11	1,5455:1	A3
Tabloid	ANSI B	279x432	11x17	1:1,5455	A3
	ANSI C	432x559	17x22	1:1,2941	A2
	ANSI D	559x864	22x34	1:5455	A1
	ANSI E	864x1118	34x44	1:1,2941	A0

Serie A

The largest standard size, A0, has an area of ​​one square meter and an aspect ratio of 1:√2. The long side of the sheet has a length of approximately 1.189 m, the length of the short side is the inverse of this value, approximately 0.841 m, the product of these two lengths gives an area of ​​1 m².

Size A1 is obtained by cutting sheet A0 along the short side into two equal parts, resulting in the same aspect ratio. This allows one standard paper size to be produced from another, which was not possible with traditional sizes. Preserving the aspect ratio also means that when scaling an image from one format to another, the proportions of the image are preserved.

Serie B

In addition to the A series of formats, there are also less common B series formats. B series sheets have the same aspect ratio as A series. Only B0 has a width of 1 m. The area of ​​B series sheets is the geometric average of the two subsequent A series sheets. For example, B1 The size is between A0 and A1, with an area of ​​0.71 m². As a result, B0 has dimensions of 1000 × 1414 mm. Series B is almost never used in the office, it has a number of special applications, for example, many posters are published in these formats, B5 is often used for books, and these formats are also used for envelopes and passports.

Series C

Series C is used for envelopes only and is defined in ISO 269. The area of ​​series C sheets is equal to the geometric average of series A and B sheets of the same number. For example, the area of ​​C4 is the geometric average of the area of ​​sheets A4 and B, with C4 slightly larger than A4, and B4 slightly larger than C4. The practical meaning of this is that an A4 sheet can be placed in a C4 envelope, and a C4 envelope can be placed in a thick B4 envelope.
C6 162 x 114 mm - the main postal envelope format of the Soviet period.

North American standard

Currently used American sizes are based on traditionally used sizes, and are defined by the American National Standards Institute (ANSI). The most commonly used formats in daily activities are “Letter”, “Legal” and “Ledger” / “Tabloid”. The source of the "Letter" format (8.5 × 11 inches or 216 × 279 mm) goes back to tradition and is not exactly known.
North American paper sizes are government standards in the United States and the Philippines (however, Philippine "legal" is 8.5 x 13 inches, which is different from American "legal"), and are also widely used in Canada, Mexico and some South American countries.
Unlike standard A4 paper, which is a geometric subset of the range of paper sizes based on the International Organization for Standardization (ISO) standard, the origins of "Letter" paper sizes are lost in tradition and are not clearly documented. The American Forest and Paper Association states that the dimensions originate from the days of hand-made paper, and that the 11-inch page length is a quarter of the "average maximum arm length of a skilled worker." However, this does not explain the width or aspect ratio.

Publication formats

GOST (5773-76)

Large	Average	Small	Miniature	Little ones
84x108/8	70x100/16	70x100/32	70x90/64	60x90/512
70x108/8	60x100/16	70x90/32	60x90/64	60x84/512
70x100/8	75x90/16	75x90/32	60x84/64	84x108/1024
60x90/8	70x90/16	60x90/32	60x70/64	70x108/1024
60x84/6	60x90/16	60x84/32	84x108/128	70x100/1024
84x108/16	60x84/16	60x108/32	70x108/128	70x90/1024
84x108/16	70x84/16	70x100/32	70x100/128	60x90/1024
90x100/16	70x75/16	84x108/64	70x90/128	60x84/1024
84x100/16	60x108/16	70x108/64	60x90/128
70x108/16	60x70/16	100x84/64	60x84/128
80x100/16	84x108/32		84x108/256
84x90/16	70x108/32		70x108/256
	84x100/32		70x100/256
	80x100/32		70x90/256
	84x90/32		60x90/256
			60x84/256
			84x108/512
			70x108/512
			70x100/512
			70x90/512

To determine the format of a book block, it is necessary to decompose the value of the sheet fraction (/16, /32, etc.) into two largest factors (16 = 4x4, 32 = 4x8), then divide the larger side of the sheet by a larger factor, the smaller side by a smaller factor .
For example: 84x108/32 => 32=4x8 => x => 21x13.5
If we now subtract 1 cm from the larger value, and 0.5 cm from the smaller one, we get the block format after trimming (for publications with landscape imposition, subtract 1 cm from the smaller value, and 0.5 from the larger one).

Vintage book and writing paper formats

check folio	paper size 43.2x61 cm
crown folio	book or paper format 25x38 cm
demy folio	paper size 28.5x44 cm
double folio	paper size 55.9x86.4 cm
double-double folio	paper size 83.8x111.8 cm
double imperial folio	paper size 38x56 cm
elephant folio	paper size 35.5x58 cm
extra-size folio	paper size 48.3x61 cm
foolscap folio	book or paper format 21.5x34 cm
foolscap long folio	writing paper format 16.5x40.6 cm
imperial folio	paper size 38x56 cm

crown quarto	book format 19x25 cm
demy quarto	book format 22x28.5 cm
double imperial quarto	printed paper format 73.7x114 cm
foolscap quarto	book format 17x21.5 cm

crown octavo	book format 13x19 cm; book format 14x20 cm; book height 20-25 cm
demy octavo	book format 14x22 cm
imperial octavo	book format: British 19x25 cm; Amer. 21x29 cm
large post octavo	book format 13x21 cm

The publication format is the size of the book block (in length and width) after three-sided trimming.
The format is determined by the type and type of publication, its volume, circulation, the nature of the illustrative material contained in it, the reader's purpose, terms of use, etc.
The term “book format” apparently arose in the era of machine production, when the need arose to unify book sizes for its mass production and commodity exchange.
The results of measurements of dozens of Russian books of the 11th-13th centuries showed that they did not have stable sizes. The format of the future book was chosen by the copyist based on its purpose, as well as in accordance with the tastes of the customer and his own desires. Altar gospels, richly illustrated and large books (prologues, collections, etc.) were made, as a rule, of large size (the height of the book block is more than 30 cm). These are, for example, the oldest handwritten books: the Ostromir Gospel (1056-1057), Izbornik Svyatoslav (1073), twelve volumes of the “Great Menaion of the Readings” (1547-1563), written on the initiative of Metropolitan Macarius, and others. Books intended for everyday use , had relatively small formats, and were distinguished by their simplicity of external and internal appearance. An example of this kind of book is the Archangel Gospel (1092) - a cheap book, apparently rewritten by order of the parish church of a peasant churchyard (small four format).
With the beginning of the use of paper for making books, their formats were based on the size (share) of a paper sheet. However, there were still no firmly established paper sizes, since they depended on the mesh dimensions of the paper sheet, which were set arbitrarily by the paper manufacturer. Over time, papermakers settled on two main sizes: the smaller one - 30x50 cm; the larger one is 50x70, which, however, was not strictly observed.
To indicate the format of Russian handwritten books, a conventional unit of measurement was used - dest (Persian dest - right hand).

Format	Size	Format	Size	Format	Size	Format	Size	Format	Size
A0	841x1189	B0	1000x1414	C0	916x1296	K5	145x215	C54	185x260
A1	594x841	B1	707x1000	C1	648x916	K6	125x125	C65	114x229
A2	420x594	B2	500x707	C2	458x648	K7	90x140	K65	125x189
A3	297x420	B3	354x500	C3	324x458	K8	150x150	DL (E 65)	110x220
A4	210x297	B4	250x353	C4	229x324	K9	225x225	E4	220x320
A5	148x210	B5	177x250	C5	162x229	K10	175x175
A6	105x148	B6	125x177	C6	114x162
A7	74x105	B7	88x125	C7	81x114
A8	52x74	B8	62x88	C8	57x81
A9	37x52	B9	44x62	C9	40x57
A10	26x37	B10	31x44	C10	28x40

DIN formats (metric)

Format	Width x length in mm
1A	1189x1682
A0	841x1189
A1	594x841
A2	420x594
A3+	305x457
A3	297x420
A4	210x297
A5	148x210
A6	105x148

Notes:

1. The area of ​​A0 format is 1 sq.m.

2. The “+” sign in the format designation indicates the presence of an allowance compared to standard sizes. The amount of allowance may vary.

3. For roll paper, the width corresponds to the narrow edge of the format, i.e. A1 means 594mm wide roll. The length of a standard roll for copying machines is 175 meters.

Anglo-American standards formats

Format	Width x length in mm	Width x length in inches	Analogue DIN standard
A	228x305	9x12	A4
B	305x457	12x18	A3
C	457x610	18x24	A2
D	610x914	24x36	A1
E	914x1219	36x48	A0

Formats of other international standards.

Format	Width x length in mm	Width x length in inches
B4 (German format)	250x353	9.8x13.9
B5	176x250	6.9x9.8
B3	353x500	13.9x19.7
B4 (Japanese format)	257x364	10.1x14.3
B4 (American standard)	254x356	10.0x14.0
Draft	254x406	10.0x16.0
Folio	210x330	8.3x13.0
Foolscap	216x356	8.5x13.0
Foolscap (UK)	203x330	8.0x13.0
Legal	216x356	8.5x14.0
Gov. Legal	203x330	8.0x13.0
Legal (Argentinian)	220x340	8.7x13.4
Letter/US Quatro	216x279	8.5x11.0
Gov. Letter	203x267	8.0x10.5
Officio	216x317	8.5x12.5

The calculators in this article are devoted to the topic of printing digital photographs.

The first calculator helps you select a photo format for printing an image of known dimensions. Let's formulate the problem.

Given: We have a digital image of sizes known to us, for example, 3264 by 2448 pixels, and a set of standard formats offered by photo printing services. The format determines the linear dimensions of the photograph, for example, a 10x15 photograph has dimensions of 102 by 152 millimeters.

Required: Select from a set of formats the largest possible on which you can still print the image without losing quality.

To set photo formats, I created a separate reference book Photo formats, which can be expanded if necessary.

The only special knowledge that you need to have to find the answer is the knowledge that high-quality printing of a digital image requires a resolution of at least 300 dots (pixels) per inch (300 dpi), and more or less acceptable printing is possible with a resolution of at least 150 dots per inch. inch (150 dpi). Everything else is simple mathematical operations.

Graphically, the task is shown in the figure below.

The logic of finding the answer is simple - the linear dimensions of each format are converted into inches and then into pixels, based on the fact that there are 300 (150) pixels in one inch. Next, the resulting number is compared with the size of the image (there are certain nuances related to the ratio of height and width, but more on that in the second part). If the format size in pixels is larger than the size of our image (in the picture - the format to the right of the photo), then it will no longer work, because the photo will have to be stretched, and we will get a resolution worse than 300 (150) dpi. If the format size is smaller than the size of our image (in the picture - the format to the right of the photo), then it will fit - the photo will have to be compressed, and we will get a resolution better than 300 (150) dpi.

Of all the suitable formats, the calculator selects the maximum size format (there are no problems with printing smaller images - as far as I understand, you can print with a resolution of 1200 dpi).

Format size in pixels for 300 dpi resolution

Format size in pixels for 150 dpi resolution

The second calculator uses the dimensions of the already printed photograph and the dimensions of the original image to help determine the resulting resolution of the photograph and the part cropped out when scaling. Let's formulate the problem.

Given: An image of known dimensions is printed on a photograph of known dimensions. Since the value of the ratio of the height and width of the image and the value of the ratio of the height and width of the digital image, as a rule, do not coincide, when printing the image is scaled, obviously while maintaining the proportions. This is shown graphically in the figure below.

When scaling, as you can see, two options are possible:
the first is scaling with loss of part of the image,
the second is scaling, preserving the entire image, but leaving empty space in the image.
As an esthete, I chose the first option for calculations.

Thus, the first thing is required: to find the resulting resolution of the image and the part of the image that was not included in the image. Second, accordingly, this will be the difference between the used width (height) and the original width (height) of the image.

Width of the printed image, cm

Height of the printed image, cm

- inkjet or less commonly laser. We also all know that there are certain popular photo sizes. But what are the standard photo sizes for printing? Let's put them in a table in which we list all the sizes of photographs for printing.

Quite often, when we decide to print our photographs, we encounter a problem and ask ourselves: what size should they be? Of course, most modern digital cameras automatically select the required photo resolution, but it also happens that you need to print photos downloaded from the Internet or captured on your phone, what should you do in this case?

First, let's answer the question - why should you know (and accordingly adhere to) standard photo sizes for printing? The point is that having come up with standard photo sizes, photographic paper began to be made in the same size. Therefore, the correct ratio of height and width of the photograph is very important. Otherwise, the photos will end up stretched both in height and width. The resolution of the image is also important - it affects the quality (sharpness) of the image when printed.

The sizes of photographs for printing are shown in the table

Where there is a standard or format, this is the aspect ratio that it is advisable to adhere to so that you do not have to crop or stretch the photo. The second column contains the photo sizes in centimeters, the third in pixels, I think this is understandable.

Standard sizes The photos have dimensions of 10.2 x 15.2 cm (highlighted in the table) - these are the usual album photos that we are used to seeing.

What to do if the photo has different dimensions?

Let's say you compared the sizes of photographs for printing, the table of which was presented above, and found out that your photo has different sizes, what should you do in this case? If the aspect ratio is different, then simply increasing or decreasing the centimeters will not do. You will have to crop the image to the desired format.

How to quickly crop a photo to the desired size?

There are two main ways.

The first way is to use the simplest image editing program. Almost all versions of the Windows operating system have Paint program in the "Standard Programs" tab. Having opened a photo file in this program, you need to drag the border of the picture on the right or bottom and thus crop the photo to the desired size in pixels. The image size in pixels is shown at the bottom of the program window.

The second way is to use specialized image editing programs. Most often used Photoshop program- she is the most popular and the most professional. I note that we need to precisely adjust the photo to the desired format (depending on the version of the program, the location of this button may change - just squeak it on the toolbar).

For a novice user, the Photoshop program will seem like a magical tool that, with mysterious ease, can change any photo beyond recognition. But how!? Tell! How does he do it? What is the mechanism? What happens inside the photograph that it changes in any way, as if it were a chameleon? Nothing complicated, you just need to know what digital photography consists of and what rules apply to it, then everything will fall into place.

Namely, this is the type of graphics that Photoshop works with; it consists of tiny elements - pixels, like any object made of the smallest particles - atoms.

Pixels- these are tiny square-shaped elements that contain information about color, brightness and transparency. The term comes from crossing two English words - picture (image) And element.

A digital image file consists of vertical and horizontal rows of pixels that fill its height and width, respectively. The more pixels an image contains, the more detail it can display. They are elusive to the human eye because they are negligible. You'll have to zoom in a lot to see them:

Please note. The visible part of the image is marked with a red frame. I zoomed in to 1200% on the area where the panda's nose and mouth are. As you can see, the image consists of a set of colored squares. When enlarged, it looks like a patchwork quilt of square pieces.

By looking closely, you can understand the basic principles of image construction:

1. Pixels are square in shape and are arranged in the image in the form of a grid (remember a checkered notebook sheet).

2. Squares are always strictly one specific color; they cannot even be a gradient. Even if it seems to you that some square is shimmering in color, then this is nothing more than an optical illusion. Enlarge this area even more and you will see this.

3. A smooth transition between colors occurs due to gradually changing tones of adjacent pixels. Even the line of contact of contrasting colors can contain more than a dozen tones.

Image Resolution

The concept of image resolution is inextricably linked with pixels.

The resolution of a digital photograph is written as follows: 1920×1280. This notation means that the image is 1920 pixels wide and 1280 pixels high, that is, these numbers are nothing more than the number of those very small squares in one row and column.

By the way, if you multiply these two numbers - 1920x1280 (in my example it turns out 2,457,600 pixels), then we get the total number "shreds", of which a specific image is composed. This number can be reduced and written as 2.5 megapixels (MP). You came across such abbreviations when you got acquainted with the characteristics of a digital camera or, for example, the camera in a smartphone. Equipment manufacturers indicate the maximum value that their product is capable of. This means that the higher the MP number, the higher the resolution of future images can be.

So, the higher the resolution, the smaller the pixels, which means the quality and detail of the image increases. But a photograph with a higher resolution will also weigh more - such is the price of quality. Since each pixel stores certain information, as their number increases, more computer memory is required, which means their weight increases. For example, the photo with bears at the top of the article with a resolution of 655x510 weighs 58 KB, and a photo with a resolution of 5184x3456 will take up 6 MB.

Pixel sizes and printing

It is important to differentiate situations when we talk about pixel sizes and their impact on the quality of the photo.

Looking at images on a monitor screen, we see that the pixel sizes are always the same. The computer resolution size is considered 72 dpi.

Note

Please note that when you create a new document in Photoshop, the program offers you exactly this value by default:

When viewing large photographs on a computer, for example, 5184x3456, you can feel how detailed it is, there is no grain and no defects, it is bright and clear. But believe me, such a photo is again 72 dots per inch. Just for fun, let’s open the image properties:

A large photo will look great on a computer due to its scale. What is your screen resolution? Obviously not 5184x3456, but smaller. This means that the computer must reduce such a photograph so that it fits entirely on the computer screen. The pixels are compressed and their sizes are reduced, which means great image quality. If you were to view such a photo at its original size, you could easily see blur and fade in the image, as well as hard edges of contrasting details.

Pixel sizes are something that people mostly think about when it comes to printing a photo. Here 72 points may not be enough.

For example, I created a document measuring 655x400 pixels with a resolution of 72 pixels. Look at the column print size:

Photoshop has calculated that an image of 655x400 with a resolution of 72 pixels can be printed on paper measuring 9.097x5.556 inches (in centimeters this is 23.11x14.11)

655 pixels wide divided by 72 pixels per inch = 9.097 inches wide
400 pixels divided by 72 pixels per inch = 5.556 inches in height

It would seem, “Wow! What a big sheet of paper you can print on!” But in fact the photo will look something like this:

Blurred photo, no sharpness or clarity.

Printers are considered high-resolution devices, so in order for photos to print beautifully, you either need to print photos initially at a large size, like mine 5184x3456, or change the number of dots per inch in the range of 200 to 300.

I’ll take the same 655x400 image again, but change the number of pixels to 200, this is what Photoshop writes:

The print size has decreased by almost three times. Our image now prints 200 pixels onto 1 inch of paper.

What happens is that the image will be small, hardly fit into a standard 10 by 15 photograph, but it will be of high quality, clear and detailed.

It turns out that there is a certain minimum resolution for printing photographs. If the picture is initially small in size, as mine was, then there is nothing to even think about good print quality.

What size should an image be in order to print it beautifully?

Let's say you came back from a vacation from Crimea, or took 100,500 photographs of a child and, of course, want to print something in a photo album (example 1), and make one of the most remarkable ones in the form of a painting on the wall (example 2). Let's figure out what size such photographs should be and whether modern cameras can achieve this.

Example 1

So, as a rule, a photo album contains photos of the size 10×15 cm(in inches this is 3.937×5.906). Now we’ll find out what the minimum photo size should be for everything to print beautifully. For calculations we take a resolution of 200 dpi.

200 pixels per inch x 3.937 inches wide = 787 pixels;
200 pixels per inch x 5.906 inches high = 1181 pixels.

That is, a photograph 10×15 cm = 787×1181 pixels, minimum (!)

And having learned the total number of pixels in this resolution (787 × 1181 = 929447 pixels), rounded to the nearest million, we get 1MP (megapixel). I have already written that the number of megapixels is the most important characteristic of modern cameras. The average number of MP in cameras and smartphones reaches approximately 8 MP.

This means that current technology will easily make it possible to take photographs that are immediately suitable for printing images in 10×15 cm.

Example 2

Now let’s look at the case when you have chosen a photograph and want to hang it on the wall in a frame measuring, say, 30x40 cm (I took the frame size from the IKEA store catalog), I’ll immediately convert it to inches: 11.811x15.748. For this size of photo, I would take the maximum resolution size: 300 dpi, this is already considered professional and the highest quality print (just what you need for a large picture in a frame). And now the calculations:

300 pixels per inch x 11.811 inches wide = 3543 pixels;
300 pixels per inch x 15.748 inches high = 4724 pixels.

Therefore, your photo must be at least 3543x4724 pixels. We multiply the values ​​and get 16,737,132 pixels or 17 MP!

Thus, to print a photo into a frame, you will need a powerful camera. In this range are already being considered. And this is an expensive and serious type of technology.

In general, you should now be able to understand at least a little how the Photoshop program works and how all these photo editing shenanigans are achieved. Having learned about pixels, their properties and capabilities, this process should no longer seem like magic.

If you notice an error in the text, select it and press Ctrl + Enter. Thank you!

Topics of the material

While you are scrolling through photos from your vacation on your computer screen, you don’t even think about what format they are in. However, if you decide to print them, you will need to choose the dimensions of the future photo, that is, adapt your pictures to standard photo paper sizes.

Today we will tell you how to do this correctly and determine the size of photographs or pictures for printing.

Photo Size Chart for Printing

Standard photo sizes for printing are presented in the table:

Photo standard	Size (pixels)	Exact size	Number
9x13	1063x1535	8.90x12.70	1
10x15	1181x1772	10.20x15.20	2
13x18	1535x2126	12.70x17.80	3
15x20	1772x2362	15.20x20.30	4
15x21	1772x2362	15.20x21.60	5
15x22	1772x2480	15.20x22.80	6
15x30	1772x2598	15.20x30.00	7
15x38	1772x3543	15.20x38.10	8
15x45	1772x4488	15.20x45.70	9
18x24	1772x5315	17.80x24.00	10
18x25	2126x2835	17.80x25.40	11
20x25	2126x2953	20.30x25.40	12
20x30	2362x3543	20.30x30.50	13
25x38	2953x4488	25.40x38.10	14
30x40	3543x4724	30.50x40.60	15
30x45	3543x5315	30.50x45.70	16
30x90	3534x10630	30.50x91.40	17

To find out which inch photo sizes correspond to standard parameters, you just need to convert centimeters to inches by dividing them by 2.54 or use a special table.

Table of correspondence between standard photo sizes in inches and pixels:

Standard	Size (pixels)	Size (inches)
9x13	1063x1535	3.5430x5.1170
10x15	1181x1772	3.9370x5.9070
13x18	1535x2126	5.1170x7.0870
15x20	1772x2362	5.9070x7.8730
15x21	1772x2362	5.9070x8.2670
15x22	1772x2480	5.9070x8.6600
15x30	1772x2598	5.9070x11.8100
15x38	1772x3543	5.9070x14.9600
15x45	1772x4488	5.9070x17.7170
18x24	1772x5315	7.0870x9.4500
18x25	2126x2835	7.0870x9.8430
20x25	2126x2953	7.0870x9.8430
20x30	2362x3543	7.8730x11.8100
25x38	2953x4488	9.8430x14.9600
30x40	3543x4724	11.8100x15.7470
30x45	3543x5315	11.8100x17.7170
30x90	3534x10630	11.8100x35.4330

Why do you need to know the size of photos to print?

Previously, when we photographed our holidays and birthdays using “film” cameras, we took the “tube” of film to a special workshop. There we marked the selected frames that needed to be printed, and then picked up the finished order. And already at home they often discovered that the photos turned out unsuccessful. It was almost impossible to see them on film.

Now, in the era of digital photography, it would seem that everything is much simpler, and before taking a flash drive with pictures to print, we can thoroughly study them and choose the best ones. But, in fact, only those who have never printed frames from digital media think so.

The problem here is that such photographs can have any extension, as well as the ratio of horizontal and vertical dimensions. In turn, photo paper is produced within certain standard parameters. And if, for example, you take a wonderful square frame to a photo workshop, then when printing, the master will, at his discretion, “cut off” part of the photo in order to adapt it to the desired rectangular format. And it’s not a fact that you will like how he did it.

It is in order to avoid such troubles that you need to know the exact dimensions of the photographs, as well as how many horizontal and vertical pixels correspond to them.

You can get the necessary information by reading the special table provided above.

How to edit photos?

You can easily edit your photos, change their frame and size in the Paint program, which is available on any computer. This graphic editor is easy to use and very convenient even for inexperienced users.

To process a photo, you must first right-click on the desired file, then select “open with” from the menu, and then click on “Paint”.

When the desired photo opens on your monitor, select the “resize” button in the upper right corner. The program will offer two options, one in percentage and the other in pixels, here you need to select the second one. After this, all you have to do is enter the necessary parameters and save the changes.

As a result, it turns out that in order for you to be completely satisfied with the resulting paper photographs, you need not only to select the best frames, but also to process them correctly, “adapting” them to the standard sizes of sheets of photographic paper.