Not exact, but exact probably is overkill.Thanks for sharing your experiences. The earth does not swell or shrink. The company propaganda from the website is pasted FYI:Here are some url addresses that may help by showing you more info on shadow analysis:Google SketchUp can display accurate shadows, one of its most useful features. I have a contour diagram of my land and a basic idea of the building layout I wish to have architected and built.Before I proceed with spending I would like to enter this in a very ridumentary form and the altitude, long/lat of the location and look at the shadow affects on the land at different times and days of the year.The purpose is to visualise the shadow impact on intended vege patches and if necessary adjust building positions to accomodate adequate growing conditions through the year.Would you have any pointers to tutorials that will help me hit the ground running withI believe it is possible with Make…I know that it can be done with SU Pro. We will send you installation instructions and all information needed to start using the application by email.We will send you installation instructions and all information needed to start using the application by email.By downloading the demo you agreeing to occasionally receive information about special offers and updates of our software. Shadow Analysis with over 10 000 users and 6 years on the market, has a great track record for delivering accurate results in very short time. Treat the local earth surface as flat, and you will see that shadow length is proportional to object height and shadow direction is the same for all objects at each time. Shadow Analysis for SketchUp is a simple tool for analyzing daylight conditions, designed for superb integration with your SketchUp workflow. Material?Btw, with the matter aside of the mountains, this software has worked out to be a total breeze to use. sun shadow study and analysis Need a sun shadow study to help assist a planning application or object?

Perhaps this is input somewhere else?Also wondering about anything that demonstrates basic methods to input contours.I notice custom coordinates includes lat/long, but not altitude, which I understand does have an impact on the calculations. But it’s not easy to time it. Perhaps this is input somewhere else?So being at an altidue of 1000m, which makes the earth basically 1000m greater in diameter has been proven to have an efect of only minutes at sunrise / sunset?It does bring to my attention the surrounding mountains, which might also have an impact on sunrise/sunset time, but perhaps again a 300m high peak really only delays sunrise by 5-10 minutes?A mountain top 4000m above sea level leads to 7minutes and 52 seconds difference.Meaning a difference of (1.967/360) x 24hours —> 7minutes and 52 seconds.So being at an altidue of 1000m, which makes the earth basically 1000m greater in diameter …NO. Logotypes of a few of those companies are presented on the right-hand side.We would also like to share reference letters and case studies written by our clients: at an altitude of 4000m (see previous post) will have 2x ( 7 minites and 52 secons ) of extra sunlight with sunrise and sunset east->westA model several hundred kilometers in size isn’t practical.It isn’t practical, but to a reasonable first approximation it also isn’t necessary. The program is an essential solar tool for all design professionals. I wondered the same, but havent had enough time with these type of tools to learn the ropes yet and wanted to double check. I’ll take it your opinion as not.If you live in the area, you notice the difference it makes as you entirely miss the sunset and sunrise experience in it’s amazing sea level form. The Solar Pathfinder PF-TC Analysis Tool with Case Tripod and Diagram Pk, makes targeting your photovoltaic electric system design easier and more powerful. Hi, I have a contour diagram of my land and a basic idea of the building layout I wish to have architected and built.