Response to Spherical Geometry and Empirical Evidence

In response to my latest post, I received a comment that due to refraction, objects at certain distance would be visible even if they are below the horizon.  He also talked about adjusting curvature every 8-10 miles.  I’ve started reading his blog but the reason for the adjustment is not clear.  However, I think he is talking about this. In the end, the height of the person and the object being observed are taken into account.  Here is the original comment:


“You are using an improper formula for curvature that has to be constantly corrected for every 8-10 miles. The correct forumula for curvature is found here. https://chizzlewit.wordpress.com/2015/05/13/working-with-the-curvaure-of-a-spherical-earth/ Also you are over water which tends to make refraction a bit of a problem. You will find however that with the height of you the observer on the deck as you pointed out and the height of the lands you put in that it does indeed fit in with the sphere earth model especially when you account for refraction. If you want to use a crude formula for distances between lighthouses and boats that includes for refraction you can use this one though its only an average correction for refraction. http://www.pajack.com/stories/pitts/viewdistance.html I suggest you try this with surveying equipment though if you are at sea the choppiness of the water will make it tough. Also being over water with refraction conditions makes it tough. You will find though that if you use surveying equipment you can clearly measure landmarks and see the curvature of the earth. https://www.youtube.com/watch?v=IOFmLHHwtic


To be fair to the individual, I wanted to address the objections empirically and see if he had valid points.  You can read my response here:


“I appreciate your comment. The main issue with the video is that it was taken with a crappy Samsung smart phone. It is possible to take a stable view from land (from either side) which is what I plan to do so any shakiness could be taken out. This will require a telescope with a camera to bring a sharper focus at a greater length. There are distances of 70 miles or more that can be observed from Vancouver. Specifically from Kits beach to Denman Island.

I would like to address your blog and the concept within them. If we wish to proceed using a scientific process (which must involve empirical evidence not just math), we must apply your math to observations.

If I misrepresent your ideas or math in anyway please forgive as I’m simply trying to apply them the best I can. If there are errors, please point them out and we can move forward from that. If we disagree, then the empirical evidence must be the final judge, not our opinion. Do you agree with that?

If you can apply your formula to the distances given in my post (29 and 33 miles) that would provide me with an actual representation of how your formula represents curvature. From there we can compare the two formulas and see the differences. Are you ok with doing that?

Refraction is defined as “the bending of a wave when it enters a medium where its speed is different. The refraction of light when it passes from a fast medium to a slow medium bends the light ray toward the normal to the boundary between the two media.”

As I’m looking towards Vancouver from the deck of the ferry, I would not be looking into water which would be a slower medium. As well the refraction requires the object be within the slower medium (or at least in between my eye and the object in question). When looking at this wiki article, the superior mirage is the only explanation that you are referring to that could bend light (if you have a different one, please explain). It would require that the object in question is within an area of higher temperature than the observer. As well, if this object (like a building) occupies various temperature strata then the object would appear quite distorted since different temperature regions would overlap and the image would not make much sense to the eye (https://en.wikipedia.org/wiki/Mirage#/media/File:Superior_and_inferior_mirage.svg). The video that I shot shows objects that are consistent in shape and size without any distortion. With both superior and inferior mirages the objects are inverted and/or distorted. The other issue is that the temperature differential required for a superior mirage is significant:

“The “resting” state of the Earth’s atmosphere has a vertical gradient of about -1° Celsius per 100 metres of altitude. (The value is negative because it gets colder as altitude increases.) For a mirage to happen, the temperature gradient has to be much greater than that. According to Minnaert,[1] the magnitude of the gradient needs to be at least 2°C per metre, and the mirage does not get strong until the magnitude reaches 4° or 5°C per metre. These conditions do occur with strong heating at ground level, for example when the sun has been shining on sand or asphalt, commonly generating an inferior image”

The temperature differential from the bottom of UBC to the peak would require a consistent temperature change over 81 meters. According to the above formula, the temperature from the bottom of UBC (let’s say 12 degrees C) to the peak would be impossible. It makes sense at small distances (like asphalt) since the temperature difference can be significant. However, the temperature from sea level to 81 meters will not be 4-5 degrees per meter. So unless you see an error in that formula, we can safely rule out a superior mirage. So once I can see your math using your equations then we can move forward with the next discussion. Hopefully I will be able to get a sharper image next time that will show more detail.

Thanks again for your comment.”


It occurred to me that the image of Chicago across lake Michigan

was described as a superior mirage.  As I wrote in my post above, the temperature differential between the lake surface and the highest object would require at least 2 degrees per meter.  If you think about it, an object 30 meters high (~100 feet) would require 60 degrees difference for the affect to occur.  And that is not a very strong affect.  According to the above article, you would need 4-5 degrees for it really be visible.  There simply is not that kind of temperature differential in such short distances.  As well, the object would need to be inverted or distorted which is obviously not the case in this video.  Near the end of the video, they show a “duct” between the hot air and the cold air.  For the affect to work, the temperature difference must be so great as to bend the light.  The distance between the hot air and cold air is greater than 1 meter.  The important thing to remember is that the “temperature gradient” must change not just one portion but the entire length of the object.  In the case of a small object on the horizon at a great distance (70 miles), atmospheric distortion would occur and you would see inverted images.  But if the object(s) in question are visible at 70 miles at a greater distance above the horizon (like a tall building) then temperature must be that much greater.  Finally, if the image in question was taken with a camera with a zoom lens it completely removes the possibility of a mirage since the focal point of the lens would bypass the affect as seen in this video:

As the lens sharpens the image, any distortion would be removed and any mirage would disappear.

You can read about Fata Morgana to see how these distance object are explained within the commonly accept ideas about the curvature of the earth.  However, mirages are distinctive by their distorted image and changing conditions.  In the above video of Chicago, there is no distortion.

Advertisements

2 thoughts on “Response to Spherical Geometry and Empirical Evidence

  1. I love how “refraction” is always paraded out, in order to explain away why we can see much farther than supposedly the curvature should allow (REGARDLESS of whatever specific method of calculation being used). It’s just ironic to me, how supposedly an entire city skyline can be “refracted” around the alleged spherical Earth, the light waves magically following the EXACT same arc as the Earth itself, so that it wraps around it and hits your eyeball, making it only “appear” to be straight across the water. But then, when it comes to the “ball Earth proof” of ship’s hulls supposedly disappearing below the horizon first? Somehow, “refraction” isn’t the culprit there. Maybe “Refraction” is itself a shill, and somebody long ago paid this “law of physics” off so that it only goes into effect when arguing for a globe…. 😉

    Like

    1. Thanks for the comment. I’ve seen refraction used on so many occasions but never really looked into the science with great scrutiny. As you said, its annoying that a scientific idea is used in a pseudoscientific way to prove another pseudoscientific idea – namely the spinning globe earth.

      Liked by 1 person

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s