8,592
edits
Dark matter: Difference between revisions
From 2nd Book
Jump to navigationJump to search
m
Text replacement - "GPT" to "GPT {{ct| chatGPT }}"
m (Text replacement - " " to ":") |
m (Text replacement - "GPT" to "GPT {{ct| chatGPT }}") |
||
| Line 1: | Line 1: | ||
WHat is the identity of dark matter in the aether model? | WHat is the identity of dark matter in the aether model? | ||
ChatGPT said: | ChatGPT {{ct| chatGPT }} said: | ||
ChatGPT | ChatGPT {{ct| chatGPT }} | ||
In the aether model, dark matter could be understood as a manifestation of the hidden or unseen properties of the aether lattice—specifically, as a form of discontinuities, energy flows, or undetected disturbances within the lattice structure. Since dark matter has been observed to influence gravitational effects without emitting or interacting with electromagnetic radiation in a detectable way, this suggests that it could be composed of subtle, low-energy fluctuations or elements of the aether that don't interact with conventional matter in the same way as regular matter does. | In the aether model, dark matter could be understood as a manifestation of the hidden or unseen properties of the aether lattice—specifically, as a form of discontinuities, energy flows, or undetected disturbances within the lattice structure. Since dark matter has been observed to influence gravitational effects without emitting or interacting with electromagnetic radiation in a detectable way, this suggests that it could be composed of subtle, low-energy fluctuations or elements of the aether that don't interact with conventional matter in the same way as regular matter does. | ||
| Line 52: | Line 52: | ||
You said: | You said: | ||
Could dark matter be of a different lattice structure than the aether around matter? | Could dark matter be of a different lattice structure than the aether around matter? | ||
ChatGPT said: | ChatGPT {{ct| chatGPT }} said: | ||
ChatGPT | ChatGPT {{ct| chatGPT }} | ||
Yes, in the aether model, it is entirely possible for dark matter to have a different lattice structure than the aether surrounding matter. This could account for the gravitational effects that dark matter exerts without interacting with electromagnetic radiation, and it offers a way to explain why dark matter behaves differently from ordinary matter while still influencing large-scale structures like galaxies. | Yes, in the aether model, it is entirely possible for dark matter to have a different lattice structure than the aether surrounding matter. This could account for the gravitational effects that dark matter exerts without interacting with electromagnetic radiation, and it offers a way to explain why dark matter behaves differently from ordinary matter while still influencing large-scale structures like galaxies. | ||
