I have no clue but I know you're not going to debunk a damn thing they said though and don'tcome back at me with some globe shit. There's way much more weight to it than there is in the globe side
I went through a period where I willing suspended my previous knowledge to properly assess this question.
No doubt there are some issues with the globe model, but there are a lot more with the flat-earth model.
For example, do you have a map of the earth that is flat? If you have, what kind of distances are involved in going from one 'side' of the world to the 'other' then match that to flight times. Doesn't work, but it does work if the planet is a globe.
Speed differentials between the poles and the equator when matched to the speed the earth is spinning and the wind patterns.
After millions of years you would expect the atmosphere to be spinning at the same speed as the landscape, but the 'speed' at the poles is basically 0mph, and the speed at the equator is around 10,000 mph iirc.
That should create some pretty gnarly winds as completely standard, yet we don't see that.
Not sure what the answer is, I might just have missed something obvious.
Why did I click this link? 🤦
I have no clue but I know you're not going to debunk a damn thing they said though and don'tcome back at me with some globe shit. There's way much more weight to it than there is in the globe side
I went through a period where I willing suspended my previous knowledge to properly assess this question.
No doubt there are some issues with the globe model, but there are a lot more with the flat-earth model.
For example, do you have a map of the earth that is flat? If you have, what kind of distances are involved in going from one 'side' of the world to the 'other' then match that to flight times. Doesn't work, but it does work if the planet is a globe.
What are the issues with globe model?
Speed differentials between the poles and the equator when matched to the speed the earth is spinning and the wind patterns.
After millions of years you would expect the atmosphere to be spinning at the same speed as the landscape, but the 'speed' at the poles is basically 0mph, and the speed at the equator is around 10,000 mph iirc.
That should create some pretty gnarly winds as completely standard, yet we don't see that.
Not sure what the answer is, I might just have missed something obvious.