The Standard Helio model says the sun is about 150 million km away from the earth. According to the following video - https://youtu.be/Iso0jnWHGBA
the sun looks to be close to the sun for the following reasons.
The Sun produces a hotspot over the earth, indicating the earth is close to and just above the earth. If the sun was 150 million km away from the earth, the sun would produce a hotspot on the far side of the earth, away from the balloon camera. In the picture taken below, the hotspot is close to the camera, away from where the helio model predicts the sun should be.
sun hot spot.jpg
Sun Hot Spot
The shadows caste on the earths surface by the sun above the clouds is indicative of a sun that is close to the earth. The Shadow 1, 2 and 3 photos show the variation in cloud shadow angles on the earth. Shadow 3 photo shows the shadow lines converging on a close sun.
sun cloud 1.jpg
Shadow 1
sun cloud 2.jpg
Shadow 2
sun cloud 3.jpg
Shadow 3
sun cloud 4.jpg
Shadow 4
Perspective 1 shows the difference in motion of the sun in the camera shot between a distant and close sun. The distant sun should move far greater than the close sun.
sun persp 1.jpg
Perspective 1
sun persp 2.jpg
Perspective 2
Thumbnail 1 and 2 show the relatively small variation of the suns position as the camera moves, indicating the sun is relatively close to the earth.
These pictures are indicative of the evidence for a close sun earth distance, which overturns the standard Helio model. The sun's motion does not act like we are told with the Helio model. The sun illuminates a small area of the earth with a small hot spot, unlike the Helio model that expects a uniform illumination over about 1/2 the earth's surface.
The sun produces cloud shadow angles on the earth's surface, which are indicative of a close sun and not parallel cloud shadow lines as expected by a distant sun.
The sun does not move as much as expected in the night sky when the balloon camera rotates, indicating the sun is far closer than the Helio model predicts.
The video is published by a flat earth exponent, hovever these points are directly related to problems with the standard Helio model. I recommend the reader view the above video to get a good understanding of the problems posed.
I am currently a geocentrist, and I am agnostic about the shape of the earth, be it global, flat, or concave.
Happy viewing.
The answers from the Helio's will be most likely evasive.
JM
the sun looks to be close to the sun for the following reasons.
The Sun produces a hotspot over the earth, indicating the earth is close to and just above the earth. If the sun was 150 million km away from the earth, the sun would produce a hotspot on the far side of the earth, away from the balloon camera. In the picture taken below, the hotspot is close to the camera, away from where the helio model predicts the sun should be.
sun hot spot.jpg
Sun Hot Spot
The shadows caste on the earths surface by the sun above the clouds is indicative of a sun that is close to the earth. The Shadow 1, 2 and 3 photos show the variation in cloud shadow angles on the earth. Shadow 3 photo shows the shadow lines converging on a close sun.
sun cloud 1.jpg
Shadow 1
sun cloud 2.jpg
Shadow 2
sun cloud 3.jpg
Shadow 3
sun cloud 4.jpg
Shadow 4
Perspective 1 shows the difference in motion of the sun in the camera shot between a distant and close sun. The distant sun should move far greater than the close sun.
sun persp 1.jpg
Perspective 1
sun persp 2.jpg
Perspective 2
Thumbnail 1 and 2 show the relatively small variation of the suns position as the camera moves, indicating the sun is relatively close to the earth.
These pictures are indicative of the evidence for a close sun earth distance, which overturns the standard Helio model. The sun's motion does not act like we are told with the Helio model. The sun illuminates a small area of the earth with a small hot spot, unlike the Helio model that expects a uniform illumination over about 1/2 the earth's surface.
The sun produces cloud shadow angles on the earth's surface, which are indicative of a close sun and not parallel cloud shadow lines as expected by a distant sun.
The sun does not move as much as expected in the night sky when the balloon camera rotates, indicating the sun is far closer than the Helio model predicts.
The video is published by a flat earth exponent, hovever these points are directly related to problems with the standard Helio model. I recommend the reader view the above video to get a good understanding of the problems posed.
I am currently a geocentrist, and I am agnostic about the shape of the earth, be it global, flat, or concave.
Happy viewing.
The answers from the Helio's will be most likely evasive.
JM
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