right, and I replied to you asking for a link to where I was "BTFO" and you didn't get back to me
I expect you were referring to someone else's comment about the bullet not being self-powered and able to change its course like the helicopter, airplane, hot air balloon, or bird
I then reminded you that it's 1000mph spin at the equator and none of those things take that into consideration
There's a lot more I can go on about; more evidence to debunk the spinning globe lie but these two points are enough on their own and can be experimented by anyone, anywhere
I'm not sure yet what you mean or why it matters but I'm interested, if you could please elaborate?
In case we don't come to agreement on the Coriolis effect problem, I encourage you to experiment the distant landmark example for yourself sometime
No theory or physics involved, really
Just some trigonometry
Measure distance between yourself and the distant object using Google Maps and then punch the distance into an earth curvature calculator to get the amount of curve or drop there should be
At 25kms, easily visible with the naked eye, there should already be appx 150ft of drop, meaning anything shorter than 150ft would be 100% blocked from view
You'll instead find that you're staring at 100% of the distant landmark; zero drop
We have examples much further than this were the object should be blocked by an entire mile of earth
At some point you will be limited due to the atmosphere, regardless of your optical zoom
I have has this conversation a few times since I was little... there are actually a few factors which affect how far you can see. But since I only have a few minutes, I will try to keep it simple. Light curves around the edges of a sphere, in addition, atmospheric conditions can create a lense effect. If on the water, an shoreline 200 miles away, can be seen if there is enough humidity. Light reflecting off the water will reflect into the atmosphere making the waterline appear farther. The atmospheric lense effect makes the shoreline or city appear closer at the same time.
Huh. Maybe they aren't as completely retarded as I thought.
haha I love you, handshake
Consider the Coriolis effect contradiction and the visible distant landmark impossibility described in my other comment
Either of those two points should be enough to give pause, and I can provide plenty of other evidence to debunk the spinning globe claim, upon request
Again with this coriolis effect bullshit? I already told you I saw you get btfo trying to use that nonsense. Time for a new script.
right, and I replied to you asking for a link to where I was "BTFO" and you didn't get back to me
I expect you were referring to someone else's comment about the bullet not being self-powered and able to change its course like the helicopter, airplane, hot air balloon, or bird
I then reminded you that it's 1000mph spin at the equator and none of those things take that into consideration
There's a lot more I can go on about; more evidence to debunk the spinning globe lie but these two points are enough on their own and can be experimented by anyone, anywhere
And I looked for maybe a minute and couldn't find it and that was a minute too long to be engaging with your nonsense and well poisoning.
Coriolis effect example doesn't work if you account for sea level
I'm not sure yet what you mean or why it matters but I'm interested, if you could please elaborate?
In case we don't come to agreement on the Coriolis effect problem, I encourage you to experiment the distant landmark example for yourself sometime
No theory or physics involved, really
Just some trigonometry
Measure distance between yourself and the distant object using Google Maps and then punch the distance into an earth curvature calculator to get the amount of curve or drop there should be
At 25kms, easily visible with the naked eye, there should already be appx 150ft of drop, meaning anything shorter than 150ft would be 100% blocked from view
You'll instead find that you're staring at 100% of the distant landmark; zero drop
We have examples much further than this were the object should be blocked by an entire mile of earth
At some point you will be limited due to the atmosphere, regardless of your optical zoom
Bring binoculars if you have them
I have has this conversation a few times since I was little... there are actually a few factors which affect how far you can see. But since I only have a few minutes, I will try to keep it simple. Light curves around the edges of a sphere, in addition, atmospheric conditions can create a lense effect. If on the water, an shoreline 200 miles away, can be seen if there is enough humidity. Light reflecting off the water will reflect into the atmosphere making the waterline appear farther. The atmospheric lense effect makes the shoreline or city appear closer at the same time.