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When one observes the phases of the moon they are seeing the Moon's day and night, a shadow created from the sun illuminating half of the spherical moon at any one time. As depicted above, due to EA we are always observing the nearside (or underside) of the moon.
 
When one observes the phases of the moon they are seeing the Moon's day and night, a shadow created from the sun illuminating half of the spherical moon at any one time. As depicted above, due to EA we are always observing the nearside (or underside) of the moon.
  
The curved rays of the sun results in the phases upon the Moon's surface. The plane of the moon's path is at an angle to the plane of the Sun's ecliptic. When the moon is far from the sun and higher than it, the Full Moon occurs. When the moon is closer to the sun and lower than it, the New Moon occurs. The moon moves at a slightly slower rate across the sky than the sun, causing the range of phases.
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The curved rays of the sun results in the phases upon the Moon's surface. The plane of the moon's path is at an angle to the plane of the Sun's ecliptic. When the moon is far from the sun and higher than it, the Full Moon occurs. When the moon is closer to the sun and lower than it, the New Moon occurs. The Moon moves at a slightly slower rate than the sun across the sky, causing the range of phases.
  
 
[[File:Moon-Phases.jpg|700px]]
 
[[File:Moon-Phases.jpg|700px]]

Revision as of 18:02, 8 May 2019

The theory of the Electromagnetic Accelerator (EA) states that there is a mechanism to the universe that pulls light upwards. All light curves upwards over very long distances. This is an alternative to the perspective theory proposed in Earth Not a Globe. Sunset happens as result of these curving light rays.

Electromagnetic Accelerator.gif

The above illustration depicts rays from the sun which intersect with the earth. Other rays not depicted may miss the earth and make a "u-turn" back into space.

Clouds Lit From Underside

Rays which miss the earth will turn back up into space, and may hit the underside of clouds before sunrise or after sunset.

EA-Clouds.jpg

Nearside Always Seen

A consequence of this paradigm is that the observer will always see the nearside (underside) of the celestial bodies. The below image depicts the extremes of the Moon's rising and setting. The image of the nearside face of the moon is bent upwards around the moon and faces the observers to either side of it.

Moon-face.png

Lunar Phases

When one observes the phases of the moon they are seeing the Moon's day and night, a shadow created from the sun illuminating half of the spherical moon at any one time. As depicted above, due to EA we are always observing the nearside (or underside) of the moon.

The curved rays of the sun results in the phases upon the Moon's surface. The plane of the moon's path is at an angle to the plane of the Sun's ecliptic. When the moon is far from the sun and higher than it, the Full Moon occurs. When the moon is closer to the sun and lower than it, the New Moon occurs. The Moon moves at a slightly slower rate than the sun across the sky, causing the range of phases.

Moon-Phases.jpg

Sample large-scale sun ray diagram (side view):

EA-Rays-2.png

Horizon Dip

The Electromagnetic Accelerator also predicts that at high altitudes the horizon will drop below eye level. Light which travels parallel from the limits of vision will be pulled upwards and miss the eye of the observer. The only rays the observer will see are those rays which are transmitted at a lower angle and pulled upwards to meet the observer, resulting in a horizon which is slightly below eye level.

EA-Horizon.png

See Also