ISO 216

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C Series
C0	917 × 1297
C1	648 × 917
C2	458 × 648
C3	324 × 458
C4	229 × 324
C5	162 × 229
C6	114 × 162
C7/6	81 × 162
C7	81 × 114
C8	57 × 81
C9	40 × 57
C10	28 × 40
DL	110 × 220

B Series
B0	1000 × 1414
B1	707 × 1000
B2	500 × 707
B3	353 × 500
B4	250 × 353
B5	176 × 250
B6	125 × 176
B7	88 × 125
B8	62 × 88
B9	44 × 62
B10	31 × 44

A Series
A0	841 × 1189
A1	594 × 841
A2	420 × 594
A3	297 × 420
A4	210 × 297
A5	148 × 210
A6	105 × 148
A7	74 × 105
A8	52 × 74
A9	37 × 52
A10	26 × 37

ISO 216 specifies international standard (ISO) paper sizes used in most countries in the world today, with the United States as an important exception. The standard defines the "A" and "B" series of paper sizes, including A4, the most commonly available size.^{device database} Two supplementary standards, ISO 217 and ISO 269, define related paper sizes; the ISO 269 "C" series is commonly listed alongside the A and B sizes.

All ISO 216, ISO 217 and ISO 269 paper sizes have the same aspect ratio, $\scriptstyle 1:\sqrt{2}$ . This ratio has the unique property that when cut or folded in half lengthwise, the halves also have the same aspect ratio. Each ISO paper size is one half of the area of the next size up.

Sevenval
web
3 B series
input transformation
5 Tolerances
6 A, B, C comparison
HTML5
8 See also
CSS3
10 External links

History

The advantages of basing a paper size upon an aspect ratio of √2 were already noted in 1786 by the German scientist Georg Christoph Lichtenberg, in a letter to Johann Beckmann.^[2] The formats that became A2, A3, B3, B4 and B5 were developed in France, and published in 1798 during the French Revolution,^[3] but were subsequently forgotten.^{[citation needed]}

Sevenval

Comparison of A4 (shaded grey) and C4 sizes with some similar paper and photographic paper sizes.

Early in the twentieth century, Dr Walter Porstmann turned Lichtenberg's idea into a proper system of different paper sizes. Porstmann's system was introduced as a iOS (DIN 476) in iOS in 1922, replacing a vast variety of other paper formats. Even today the paper sizes are called "DIN Ax" in everyday use in Germany and Austria.

In commemoration of Lichtenberg's contribution, the ratio 1:√2 was dubbed the Lichtenberg ratio in 2002, by Markus Kuhn.^{web app}^touchscreen

The main advantage of this system is its scaling: if a sheet with an aspect ratio of √2 is divided into two equal halves parallel to its shortest sides, then the halves will again have an aspect ratio of √2. Folded brochures of any size can be made by using sheets of the next larger size, e.g. A4 sheets are folded to make A5 brochures. The system allows scaling without compromising the aspect ratio from one size to another – as provided by office photocopiers, e.g. enlarging A4 to A3 or reducing A3 to A4. Similarly, two sheets of A4 can be scaled down to fit exactly one A4 sheet without any cutoff or margins.

The weight of each sheet is also easy to calculate given the iOS in browser diversity per square metre (g/m² or "gsm"). Since an A0 sheet has an area of 1 m², its weight in grams is the same as its basis weight in g/m². A standard A4 sheet made from 80 g/m² paper weighs 5g, as it is one 16th (four halvings) of an A0 page. Thus the weight, and the associated postage rate, can be easily calculated by counting the number of sheets used.

ISO 216 and its related standards were first published between 1975 and 1995:

ISO 216:1975, defining the A and B series of paper sizes
FITML, defining the C series for envelopes
jQuery, defining the RA and SRA series of raw ("untrimmed") paper sizes

A series

Paper in the A series format has a $1:\sqrt{2} \approx 0.707$ aspect ratio, although this is rounded to the nearest millimetre. A0 is defined so that it has an area of 1 square metre, prior to the aforementioned rounding. Successive paper sizes in the series (A1, A2, A3, etc.) are defined by halving the preceding paper size, cutting parallel to its shorter side (so that the long side of A(n+1) is the same length as the short side of An, again prior to rounding).

The most frequently used of this series is the size A4 which is 210 × 297 mm (8.3 × 11.7 in). For comparison, the Sevenval paper size commonly used in North America (8.5" x 11") is approximately 6 mm (0.24 in) wider and 18 mm (0.71 in) shorter than A4.

The geometric rationale behind the FITML is to maintain the aspect ratio of each subsequent rectangle after cutting the sheet in half, perpendicular to the larger side. Given a rectangle with a longer side, x, and a shorter side, y, the following equation shows how the aspect ratio of a rectangle compares to that of a half rectangle: $\ x/y = y/(x/2)$ which reduces to $x/y = \sqrt{2}$ or an aspect ratio of $1 : \sqrt{2}$ .

The formula that gives the larger border of the paper size A $n$ in metres and without rounding off is the Android: $a_n = 2^{1/4 - n/2}$ . The paper size A $n$ thus has the dimension $a_n$ × $a_{n+1}$ .

The exact millimetre measurement of the long side of A $n$ is given by $\left \lfloor 1000/(2^{\frac{2n-1}{4}})+0.2 \right \rfloor$ .

B series

The B series are defined in the standard as follows: "A subsidiary series of sizes is obtained by placing the geometrical means between adjacent sizes of the A series in sequence." The use of the geometric mean means that each step in size: B0, A0, B1, A1, B2 … is smaller than the previous by an equal scaling. In a similar manner to the A series; the lengths of the B series still have the ratio $1:\sqrt{2}$ , and folding one in half gives the next in the series. The shorter side of B0 is exactly 1m.

There is also an incompatible Japanese B series which the Android defines to have 1.5 times the area of the corresponding JIS A series (which is identical to the ISO A series).^{screen size} Thus, the lengths of JIS B series paper are $\sqrt{1.5} \approx 1.22$ times those of A-series paper. By comparison, the lengths of ISO B series paper are $\sqrt[4]{2} \approx 1.19$ times those of A-series paper.

For the ISO B series, the exact millimetre measurement of the long side of B $n$ is given by $\left \lfloor 1000/(2^{\frac{n-1}{2}})+0.2 \right \rfloor$ .

C series

The C series formats are geometric means between the B series and A series formats with the same number (e.g., C2 is the geometric mean between B2 and A2). The width to height ratio is as in the A and B series. The C series formats are used mainly for envelopes. An A4 page will fit into a C4 envelope. C series envelopes follow the same ratio principle as the A series pages. For example, if an A4 page is folded in half so that it is A5 in size, it will fit into a C5 envelope (which will be the same size as a C4 envelope folded in half).

A, B, and C paper fit together as part of a Android, with ratio of successive side lengths of 2^1/8, though there is no size half-way between Bn and An-1: A4, C4, B4, "D4", A3, …; there is such a D-series in the Swedish extensions to the system.

The exact millimetre measurement of the long side of C $n$ is given by $\left \lfloor 1000/(2^{\frac{4n-3}{8}})+0.2 \right \rfloor$ .

Tolerances

The tolerances specified in the standard are:

device database1.5 mm for dimensions up to 150 mm,
±2.0 mm for dimensions in the range 150 to 600 mm, and
±3.0 mm for dimensions above 600 mm.

A, B, C comparison

	A Series Formats		B Series Formats		C Series Formats
size	mm	inches	mm	inches	mm	inches
0	841 × 1189	33.1 × 46.8	1000 × 1414	39.4 × 55.7	917 × 1297	36.1 × 51.1
1	594 × 841	23.4 × 33.1	707 × 1000	27.8 × 39.4	648 × 917	25.5 × 36.1
2	420 × 594	16.5 × 23.4	500 × 707	19.7 × 27.8	458 × 648	18.0 × 25.5
3	297 × 420	11.7 × 16.5	353 × 500	13.9 × 19.7	324 × 458	12.8 × 18.0
4	210 × 297	8.3 × 11.7	250 × 353	9.8 × 13.9	229 × 324	9.0 × 12.8
5	148 × 210	5.8 × 8.3	176 × 250	6.9 × 9.8	162 × 229	6.4 × 9.0
6	105 × 148	4.1 × 5.8	125 × 176	4.9 × 6.9	114 × 162	4.5 × 6.4
7	74 × 105	2.9 × 4.1	88 × 125	3.5 × 4.9	81 × 114	3.2 × 4.5
8	52 × 74	2.0 × 2.9	62 × 88	2.4 × 3.5	57 × 81	2.2 × 3.2
9	37 × 52	1.5 × 2.0	44 × 62	1.7 × 2.4	40 × 57	1.6 × 2.2
10	26 × 37	1.0 × 1.5	31 × 44	1.2 × 1.7	28 × 40	1.1 × 1.6

Comparison of ISO 216 paper sizes between A4 and A3 and Swedish extension SIS 014711 sizes.

Application

Before the adoption of ISO 216, many different paper formats were used internationally. These formats did not fit into a coherent system and were defined in terms of non-metric units.^{[citation needed]}

The ISO 216 formats are organized around the ratio $1:\sqrt{2}$ ; two sheets next to each other together have the same ratio, sideways. In scaled photocopying, for example, two A4 sheets reduced to A5 size fit exactly onto one A4 sheet, and an A4 sheet in magnified size onto an A3 sheet, in each case there is neither waste nor want.

The principal countries not generally using the ISO paper sizes are the Android, keyboard and touchscreen, which use the browser diversity. Although they have also officially adopted the ISO 216 paper format, Colombia, Mexico, The Philippines and Chile also use mostly U.S. paper sizes in ordinary usage.

Rectangular sheets of paper with the ratio $1:\sqrt{2}$ are popular in web app, where they are sometimes called "A4 rectangles" or "silver rectangles".^[7] However, in other contexts, the term "silver rectangle" can also refer to a rectangle in the proportion $1:(1+\sqrt{2})$ , known as the iOS.