Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Is there a way in C# to calculate given a latitude and longitude when the sun will set and rise for a given day?

share|improve this question
Is there a way to calculate this period? If so, then there's a way to do it in C#. What is your actual question? – David M Jan 13 '10 at 12:27
Also, try this link... – Sparky Jan 13 '10 at 12:37
I haven't tested this, but I came across this thread on MSDN which is answered: Get sunrise and sunset time based on latitude and longitude – Kevin McKelvin Jan 13 '10 at 13:30
Also take a look at this one – Patrick May 11 '10 at 8:24
If you've done the work, you might think about posting it as an answer here so others won't have to reproduce it. – Pat Mar 24 '11 at 16:19

8 Answers 8

up vote 13 down vote accepted

Javascript calculations here. Now you just need to port.

Edit: the calculations are in the source code of this page now.

Edit: here is a direct link to the source code. No need to go hunting through the html.

share|improve this answer
There is a new link, answer already edited. – heltonbiker Sep 26 '12 at 2:36
The link you're all looking for is here – Dave Mackintosh Jul 14 '13 at 11:09
I looked at the solar calculator that you have linked, but the code that they use is awkward and irretrievably (for me, at least) entangled with the page-specific logic. The math for it is on Wikipedia:… I put together some stand-alone JavaScript to handle the calculation and be reusable, but I think I've gotten something wrong with the calculations: – Michael Cordingley Nov 15 '13 at 15:32
Another Javascript implementation – Epeli Mar 17 '14 at 17:05

I used NAA javascript and c# to create this library in C#.

Sunrise and Sunset in C#

I tested it against these two sites, and it shows time exactly like the sites do.

share|improve this answer
Well done. Would be cooler if you placed it on github though rather than as a download. – weston Jun 20 '14 at 21:12

Start with this info:


I'm using this to wright a ruby script that is still in the making. I'm having trouble understanding the multi-part julian dates.

One thing that is clear is that you should go for exact solar transit time. Then subtract and add the semi_diurnal_arc = acos(cos_omega) which is based upon your latitude and the solar declination. Oh! And be sure to include solar center and earth refraction. It seems this earth is quite the magician.

share|improve this answer
I forgot about this. It uses a pretty good library that you might find online. Browse the code for clues.… – Douglas G. Allen Aug 24 '14 at 6:48

The accepted answer for this was a JavaScript implementation, which didn't suit my application because I needed to do the calculation in C#.

I've used this C# code:, which I have validated against the sunrise/sunset times here:

If I round seconds to the nearest minute, the C# implementation's sunrise and sunset times match the corresponding values displayed on, including cases of daylight savings. The code is a bit overwhelming though (unless you'd like moon phase data also), so I'll be refactoring it to do specifically what I require now the numbers are correct.

share|improve this answer
This one worked for me after trying many examples on the 'net. I was able to convert to VB online no hassle. It gives year 9999 if you are in the arctic circles in winter, but just loop step back a day or forward until you get a non-9999 response and you good to go. – bendecko Feb 22 at 20:47

You need a formula which includes the equation of time to allow for the eccentric orbit of the Earth moon system around the sun. You need to use coordinates with proper datum points such as WGS84 or NAD27 or something like that. You need to use the JULIAN calendar and not the one we use on a daily basis to get5 these times right. It is not an easy thing to guess within a second of time. Id like to have the time at my location where the shadow length is equal to the whatever height. this should happen twice per day when the sun is elevated 60 degrees above the horizon before and after high noon. Also, as far as I understand, you just need to add exactly one day per year to get sidereal time so if you like increase your clock frequency X 366.25/365.25 you might now have a sidereal clock instead of a civil clock ??? "MATH is the LANGUAGE in which someone powerful has written the universe"

share|improve this answer

Another good JS implementation is suncalc.

The number of code lines is manageable, so porting to other languages (C#) is certainly possible.

share|improve this answer

I've made a quick Python script to do that : SunriseSunsetCalculator

I have yet to wrap it inside a class but it may be useful for others.

share|improve this answer

If you prefer an external service you could use this nice and free sunrise and sunset times API:

I have been using it for several projects and it works very well, data seems to be very accurate. Just do an HTTP GET request to

Accepted Parameters:

  • lat: Latitude in decimal degrees. Required.
  • lng: Longitude in decimal degrees. Required.
  • date: Date in YYYY-MM-DD format. Also accepts other date formats and even relative date formats. If not present, date defaults to current date. Optional.
  • callback: Callback function name for JSONP response. Optional.
  • formatted: 0 or 1 (1 is default). Time values in response will be expressed following ISO 8601 and day_length will be expressed in seconds. Optional.

The response includes sunrise and sunset times as well as twilight times.

share|improve this answer
While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. – Ian Kemp Sep 26 at 14:36
Thanks for your comment Ian. I edited my answer to improve it. – Jose Florido Sep 26 at 17:33

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.