If we are under a dome, it could be shiny bits of the dome breaking off.
If we are under a dome, it could be shiny bits of the dome breaking off.
interesting. Do we have photos of the dome? that would be so awesome. I am very curious about iron from meteories. I love history and there is a lot of history about making weapons from iron from the sky, meteorite weapons.
Crash course in the DE model of FET (just explaining a few relevant details, not the complete model by any means). The stars are solid objects, formed of dust and rock that exist above the Earth. They rotate and are kept up in flows that you can imagine are like the tops of domes, with the Earth being the flat side.How would this explain the predictability?
Some objects, that haven't yet formed stars (and so look dull), will be torn apart by the flow, or will dip too low, and end up falling to Earth.
You could see them coming.Crash course in the DE model of FET (just explaining a few relevant details, not the complete model by any means). The stars are solid objects, formed of dust and rock that exist above the Earth. They rotate and are kept up in flows that you can imagine are like the tops of domes, with the Earth being the flat side.How would this explain the predictability?
Some objects, that haven't yet formed stars (and so look dull), will be torn apart by the flow, or will dip too low, and end up falling to Earth.
Crash course in the DE model of FET (just explaining a few relevant details, not the complete model by any means). The stars are solid objects, formed of dust and rock that exist above the Earth. They rotate and are kept up in flows that you can imagine are like the tops of domes, with the Earth being the flat side.
Some objects, that haven't yet formed stars (and so look dull), will be torn apart by the flow, or will dip too low, and end up falling to Earth.
Basically: there are rocks in the sky, sometimes they fall.Crash course in the DE model of FET (just explaining a few relevant details, not the complete model by any means). The stars are solid objects, formed of dust and rock that exist above the Earth. They rotate and are kept up in flows that you can imagine are like the tops of domes, with the Earth being the flat side.
Some objects, that haven't yet formed stars (and so look dull), will be torn apart by the flow, or will dip too low, and end up falling to Earth.
0.o Wait WHAT?
Yeah, but I know it's gonna happen Dec 13th/14th. That doesn't answer the question.Basically: there are rocks in the sky, sometimes they fall.Crash course in the DE model of FET (just explaining a few relevant details, not the complete model by any means). The stars are solid objects, formed of dust and rock that exist above the Earth. They rotate and are kept up in flows that you can imagine are like the tops of domes, with the Earth being the flat side.
Some objects, that haven't yet formed stars (and so look dull), will be torn apart by the flow, or will dip too low, and end up falling to Earth.
0.o Wait WHAT?
Yeah, but I know it's gonna happen Dec 13th/14th. That doesn't answer the question.Basically: there are rocks in the sky, sometimes they fall.Crash course in the DE model of FET (just explaining a few relevant details, not the complete model by any means). The stars are solid objects, formed of dust and rock that exist above the Earth. They rotate and are kept up in flows that you can imagine are like the tops of domes, with the Earth being the flat side.
Some objects, that haven't yet formed stars (and so look dull), will be torn apart by the flow, or will dip too low, and end up falling to Earth.
0.o Wait WHAT?
That does not explain a meteor shower being predicted on a certain date, months or years in advance.You could see them coming.Crash course in the DE model of FET (just explaining a few relevant details, not the complete model by any means). The stars are solid objects, formed of dust and rock that exist above the Earth. They rotate and are kept up in flows that you can imagine are like the tops of domes, with the Earth being the flat side.How would this explain the predictability?
Some objects, that haven't yet formed stars (and so look dull), will be torn apart by the flow, or will dip too low, and end up falling to Earth.
That does not explain a meteor shower being predicted on a certain date, months or years in advance.You seem to abuse the meaning of the word "paradox" in all cases.
The Perseid meteor shower provides one of the most striking and beautiful proofs that the Earth does not revolve around the Sun.
https://www.theflatearthsociety.org/forum/index.php?topic=30499.msg1775758#msg1775758
https://www.theflatearthsociety.org/forum/index.php?topic=30499.msg1775914#msg1775914
https://www.theflatearthsociety.org/forum/index.php?topic=30499.msg1776185#msg1776185
https://www.theflatearthsociety.org/forum/index.php?topic=67723.0 (thread on Perseid meteor shower)
Only if you imagine them falling straight down from nearby, which wouldn't be the case. The only way we predict meteors is by seeing them coming, no matter which model you adhere to.That does not explain a meteor shower being predicted on a certain date, months or years in advance.You could see them coming.Crash course in the DE model of FET (just explaining a few relevant details, not the complete model by any means). The stars are solid objects, formed of dust and rock that exist above the Earth. They rotate and are kept up in flows that you can imagine are like the tops of domes, with the Earth being the flat side.How would this explain the predictability?
Some objects, that haven't yet formed stars (and so look dull), will be torn apart by the flow, or will dip too low, and end up falling to Earth.
Individual meteors cannot be predicted, but Meteor Showers certainly can be, see EarthSky’s meteor shower guide for 2016 (http://earthsky.org/astronomy-essentials/earthskys-meteor-shower-guide).That does not explain a meteor shower being predicted on a certain date, months or years in advance.Only if you imagine them falling straight down from nearby, which wouldn't be the case. The only way we predict meteors is by seeing them coming, no matter which model you adhere to.
The only way we predict meteors is by seeing them coming, no matter which model you adhere to.