Menu
Forums
New posts
Search forums
What's new
New posts
New profile posts
Latest activity
Vault
Time Travel Schematics
T.E.C. Time Archive
The Why Files
Have You Seen...?
Chronovisor
TimeTravelForum.tk
TimeTravelForum.net
ParanormalNetwork.net
Paranormalis.com
ConspiracyCafe.net
Streams
Live streams
Featured streams
Multi-Viewer
Members
Current visitors
New profile posts
Search profile posts
Log in
Register
What's new
Search
Search
Search titles only
By:
New posts
Search forums
Menu
Log in
Register
Navigation
Install the app
Install
More options
Contact us
Close Menu
Forums
Time Travel Forum
Time Travel Discussion
Does Gravity Really Bend Light?
JavaScript is disabled. For a better experience, please enable JavaScript in your browser before proceeding.
You are using an out of date browser. It may not display this or other websites correctly.
You should upgrade or use an
alternative browser
.
Reply to thread
Message
<blockquote data-quote="Einstein" data-source="post: 80474" data-attributes="member: 288"><p>The main focus of the above video was that no gravitational lensing has been found. The search continues. </p><p></p><p>The authors main focus was on the plasma atmosphere close to the sun. As with all mediums that light traverses, there is an index of refraction. That index of refraction would change with the density of a plasma. So more than likely the index of refraction drops to one, below a certain density.</p><p></p><p>Remember we all see the lensing effect our own atmosphere has on both the sun and the moon, every day when these bodies are close to the horizon. You could probably say that a large moon just rising on the horizon hasn't actually risen yet. Because of the index of refraction and the reflective index of our atmosphere. Our atmosphere acts like a lens. Magnifying and curving the path of light traversing through it. </p><p></p><p>So its not much of a stretch to apply the same principle to our sun behaving the same way with stars behind it. This would be real fact based science that we can demonstrate in a lab. </p><p></p><p></p><p></p><p>Consider the distance. I would think a lensing affect would be more noticeable from galaxies further away. In fact if you think about it, given an average interstellar plasma density just infinitesimally over one, might show up more noticeable from galaxies in a specific distance range away from us. Perhaps in the one billion to two billion light year range. </p><p></p><p>Also during the video there was a lot of star mapping going on in the center of our galaxy. Several stars would rapidly orbit in an ellipse around a very small center. Approaching speeds of 1/3 that of light. It is believed that a black hole exists at the focal point. Yet no lensing affect has been observed about this object. Even when an orbiting star clearly passed behind this object. It is believed that no interstellar plasma exists at all close to this object. This looks kind of like a fact based observation showing that no lensing affect is taking place. Of course they are assuming the presence of a black hole.</p></blockquote><p></p>
[QUOTE="Einstein, post: 80474, member: 288"] The main focus of the above video was that no gravitational lensing has been found. The search continues. The authors main focus was on the plasma atmosphere close to the sun. As with all mediums that light traverses, there is an index of refraction. That index of refraction would change with the density of a plasma. So more than likely the index of refraction drops to one, below a certain density. Remember we all see the lensing effect our own atmosphere has on both the sun and the moon, every day when these bodies are close to the horizon. You could probably say that a large moon just rising on the horizon hasn't actually risen yet. Because of the index of refraction and the reflective index of our atmosphere. Our atmosphere acts like a lens. Magnifying and curving the path of light traversing through it. So its not much of a stretch to apply the same principle to our sun behaving the same way with stars behind it. This would be real fact based science that we can demonstrate in a lab. Consider the distance. I would think a lensing affect would be more noticeable from galaxies further away. In fact if you think about it, given an average interstellar plasma density just infinitesimally over one, might show up more noticeable from galaxies in a specific distance range away from us. Perhaps in the one billion to two billion light year range. Also during the video there was a lot of star mapping going on in the center of our galaxy. Several stars would rapidly orbit in an ellipse around a very small center. Approaching speeds of 1/3 that of light. It is believed that a black hole exists at the focal point. Yet no lensing affect has been observed about this object. Even when an orbiting star clearly passed behind this object. It is believed that no interstellar plasma exists at all close to this object. This looks kind of like a fact based observation showing that no lensing affect is taking place. Of course they are assuming the presence of a black hole. [/QUOTE]
Insert quotes…
Verification
Post reply
Forums
Time Travel Forum
Time Travel Discussion
Does Gravity Really Bend Light?
This site uses cookies to help personalise content, tailor your experience and to keep you logged in if you register.
By continuing to use this site, you are consenting to our use of cookies.
Accept
Learn more…
Top