Satellite pictures

By printing off the page and measuring the photo (note the following measurements are taken from an A4 printed page, but regardless the answer should be the same), we get an approx. size of 5mm for the height of the lettering. This implies that 1mm on the photo equates to about 7ft. With conversion of ft to inches to mm this means 1mm (image) = 7 x 12 x 25.4mm (real) which gives an approx. ratio of 1 : 2137.

Approximating the footprint of the park to be 4cm x 6cm or 40mm x 60mm , we have measurements of 40 x 2137 x 60 x 2137mm2 or 85.48 x 128.22m2 = 10960 (0.dp.) m2

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Answering the final question requires a lot of assumptions, and perhaps many may disagree with the following (please do so!). However, the thinking behind it is one based on pixel resolution…

Our first assumption is that if the photo was approximately 1/2 smaller (i.e. lengths approx. 3.5 times less) then we would lose resolution and be unable to read the lettering (see diagram above). Note that in the current format, we can reduce and enlarge to our hearts content and still be able to read the writing because the image isn’t losing the resolution data. (It does however when it is rasterised – i.e. when the image is reduced and re-pixelated based on its current size).

(Please feel free to disagree with this also!) Our next assumption is that the scaling of the distance is itself ‘linear’ over distance. I.e. 1 goes to 1/2137 over a distance of 695km, therefore over twice this distance it would go to1/4274 etc. Therefore, since we believe that the photo can be approx. 12 times smaller, which equates to approx. 3.5 times smaller in length and width, then we could assume that the satellite could be 3.5 times further away so our camera’s limit in terms of distance to be able to read the BLM lettering would be 695 x 3.5 = 2432.5km.