How long can latitude and longitude be?

I am getting very long lengths sent by a Windows Phone device:


This is exceeding my table column size and I am getting errors.

  • 3
    Are you sure these are lat/long ? Max/Min of them are lat +90 to -90 long +180 to -180, I would say there is a missing comma... saving it as float in the db would be enough, if it is formated correctly. But I think something goes wrong because your values can't be true – Xavjer Apr 12 '13 at 7:12
  • 2
    You are using some API to get these values. Presumably, the API comes with documentation. What does the documentation say about the units? – NPE Apr 12 '13 at 7:32
  • 12
    I suspect that the numbers are actually -63.572375290155 and 106.744840359415, which is just off the coast of Antarctica. A latitude or longitude with seven decimal places is accurate to 5 feet. Any more than 8 decimal places is noise. – Gilbert Le Blanc Apr 12 '13 at 12:05
  • See also – Ross Rogers May 24 at 20:45

The valid range of latitude in degrees is -90 and +90 for the southern and northern hemisphere respectively. Longitude is in the range -180 and +180 specifying coordinates west and east of the Prime Meridian, respectively.

For reference, the Equator has a latitude of 0°, the North pole has a latitude of 90° north (written 90° N or +90°), and the South pole has a latitude of -90°.

The Prime Meridian has a longitude of 0° that goes through Greenwich, England. The International Date Line (IDL) roughly follows the 180° longitude. A longitude with a positive value falls in the eastern hemisphere and negative value falls in the western hemisphere.

Decimal degrees precision

Six (6) decimal places precision in coordinates using decimal degrees notation is at a 10 cm (or 0.1 meter) resolution. Each .000001 difference in coordinate decimal degree is approximately 10 cm in length. For example, the imagery of Google Earth and Google Maps is typically at the 1 meter resolution, and some places have the highest resolution of 1 inch per pixel. One meter resolution can be represented using 5 decimal places so more than 6 decimal places is extraneous for that resolution. The distance between longitudes at the equator is the same as latitude, but the distance between longitudes reaches zero at the poles as the lines of meridian converge at that point.

If Latitude value is reported as -6.3572375290155 or -63.572375290155 then you could round-off and store up to 6 decimal places for 10 cm (or 0.1 meter) precision.

For millimeter (mm) precision then represent lat/lon with 8 decimal places in decimal degrees format. Since most applications don't need that level of precision 6 decimal places is sufficient for most cases.

In the other direction, whole decimal degrees represents a distance of ~111 km (or 60 nautical miles) and a 0.1 decimal degree difference represents a ~11 sq. Km area.

Here is a table of # decimal places difference in latitude with the delta degrees and the estimated distance in meters using 0,0 as the starting point.

decimal  decimal     distance
places   degrees    (in meters)
-------  ---------  -----------
  1      0.1000000  11,057.43      11 km
  2      0.0100000   1,105.74       1 km
  3      0.0010000     110.57
  4      0.0001000      11.06
  5      0.0000100       1.11
  6      0.0000010       0.11      11 cm
  7      0.0000001       0.01       1 cm

Degrees-minute-second (DMS) representation

For DMS notation 1 arc second = 1/60/60 degree = ~30 meter length and 0.1 arc sec delta is ~3 meters.


  • 0° 0' 0" W, 0° 0' 0" N -> 0° 0' 0" W, 0° 0' 1" N => 30.715 meters
  • 0° 0' 0" W, 0° 0' 0" N -> 0° 0' 0" W, 0° 0' 0.1" N => 3.0715 meters

1 arc minute = 1/60 degree = ~2000m (2km)

  • 2
    What about the Longtitude. How much decimal place precision is enough to hold it. – ArunRaj Mar 17 '14 at 9:27
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    6 decimal place difference (0.000001) in latitude is ~0.11 meters length and in longitude is ~0.11 meters at latitude near equator and near the poles delta in longitude is much smaller distance (4 decimal degrees becomes 20 cm). So on average 6 decimal places is sufficient for 10cm in resolution. – JasonM1 Mar 17 '14 at 14:02
  • 3
    Thanks for the lovely explanation. – ArunRaj Mar 17 '14 at 15:34
  • 1
    Might I suggest using 0.1 m where you are currently using 10 cm (except when you say "approximately 10 cm"). Otherwise excellent answer. – Floris Apr 3 '15 at 12:06
  • Latitude : max/min +90 to -90

  • Longitude : max/min +180 to -180

  • 4
    Every answer should be as simple as yours. Thank you :) – utkusonmez Dec 11 '17 at 13:50
  • 2
    Have they stopped teaching geography in elementary school? – Rick James May 6 at 4:06

Latitude maximum in total is: 9 (12.3456789), longitude 10 (123.4567890), they both have maximum 7 decimals chars (At least is what i can find in Google Maps),

For example, both columns in Rails and Postgresql looks something like this:

t.decimal :latitude, precision: 9, scale: 7
t.decimal :longitude, precision: 10, scale: 7

Valid longitudes are from -180 to 180 degrees.

Latitudes are supposed to be from -90 degrees to 90 degrees, but areas very near to the poles are not indexable.

So exact limits, as specified by EPSG:900913 / EPSG:3785 / OSGEO:41001 are the following:

  • Valid longitudes are from -180 to 180 degrees.
  • Valid latitudes are from -85.05112878 to 85.05112878 degrees.
  • 1
    The limits mentioned in this answer are for a specific MAP PROJECTION. This answer is not a valid answer to the question and misleading. A completely different issue. – bugmenot123 May 2 at 15:03
  • Do you know why the valid latitudes are from -85 to 85? I have been looking all over to find out the reason behind it. I'd love to know the reason behind it. – Lurr Jun 5 at 6:58
  • @Lurr Perhaps because you don't want to end at the North and South Pole. If the earth is a bit flatten at the poles, then it makes sens to taper off and flattens around 85 before it reaches the 90th degree – Nditah Aug 13 at 16:24

The ideal datatype for storing Lat Long values in SQL Server is decimal(9,6)

As others have said, this is at approximately 10cm precision, whilst only using 5 bytes of storage.

e.g. CAST(123.456789 as decimal(9,6)) as [LatOrLong]

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