Put a flat earthier into space

[DPTT]

Since the gravy stained melt has me on ignore, can someone ask him where these rockets actually go if not into space?

 

[payne]

Since the gravy stained melt has me on ignore, can someone ask him where these rockets actually go if not into space?

To the secret place that the rest of of don't know about. It's where the real world leaders live.

 

[Nobby]

To the secret place that the rest of of don't know about. It's where the real world leaders live.

Don't be silly, they don't exist it's all CGI and anyone who says they have seen a rocket launch is a liar

 

[legend7]

more narrative

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Wonder if it looks like a lemon squeezer.
Will just look round now as everything far away turns into a circle obviously.

Since the gravy stained melt has me on ignore, can someone ask him where these rockets actually go if not into space?

Rockets?
Surely if you've watched space 1999 that therefore means they don't really exist.

 

[Bobthebasted]

Cbbc and blue Peter are in on the propaganda as well.

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Shame on them.

 

[Roman maroni]

Since the gravy stained melt has me on ignore, can someone ask him where these rockets actually go if not into space?

I've heard them say that the astronauts enter the rockets and leave via a secret door, before takeoff, then the rocket takes of and ditches miles away at see, there's umpteen YouTube videos where they state this... f***ing hilarious. There's even a video where they state that nobody died on the challenger shuttle disaster, and are living there lives in secret.

 

[Kevj]

I've heard them say that the astronauts enter the rockets and leave via a secret door, before takeoff, then the rocket takes of and ditches miles away at see, there's umpteen YouTube videos where they state this... f***ing hilarious.

Imagine training for years only to be told to jump through a stage trapdoor just before the most significant moment in your life and it’s all a sham.

 

[Roman maroni]

Imagine training for years only to be told to jump through a stage trapdoor just before the most significant moment in your life and it’s all a sham.

They were actually tracking down people with the same names as the dead astronauts and confronting them.

 

[Nukehasslefan]

Don't be silly, they don't exist it's all CGI and anyone who says they have seen a rocket launch is a liar

Nothing wrong with a rocket launch. They just don't go into space.

 

[Roman maroni]

Nothing wrong with a rocket launch. They just don't go into space.

Jesus Christ man, you really are beyond help.

 

[bernardbresslaw]

I don't know. I don't think the whole world is. The world is what it is and it's real. The issue is in us understanding what it is, exactly.
I know what it is not (it's not a spinning globe) it's just a case of figuring out what the entire reality is, which we may never know for sure.

I reckon this is what he Universe looks like, what do you think mate?

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[payne]

Nothing wrong with a rocket launch. They just don't go into space.

where do they go oh wise one?

 

[Nobby]

Nothing wrong with a rocket launch. They just don't go into space.

Where do they go?

 

[payne]

trying to fool us with spirograph videos here. no proof

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[nahwee]

Sorry if you've already responded to this request, but could you give a link or directions to other experiments that have been carried out that prove the earths flatness?

Go and do it yourself. Water level.
Go and try it anywhere you like.
Use whatever you like as a container and even unbalance it and watch teh water level up.
You know this but you choose to believe it conforms to a globe because that's the narrative set out in mainstream. Simple as that really.

I may just do that, but in the meantime can you direct me to anything where anyone has done this - using water I mean.

Do it for you not for anyone else. You can look for whatever you want. You do not need me to hold your hand.

I’m simply asking for your help.
Can you direct me to any of these experiments?

It would be interesting to see what others had acheived.

 

[Nobby]

It would be interesting to see what others had acheived.

Nothing more than you have

 

[DaveH]

Here's something for you to get your teeth into. Let's see if you go for the mirage clap trap.

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You denied the 8 inches per mile, squared.

8 inches per mile squared is wrong, but interestingly when you look at it, it is a reasonable rule of thumb for less than 100 miles, on a planet of the size of earth.

Mixing feet, inches and miles does muddy the water a bit, because imperial just gets odd and frustrating, but when you compare the rule I put forward (and someone agreed with above) over relative short distances they are actually pretty close. However the further and further distance, the more inaccurate it becomes:

Distance in miles	Distance in km	Drop in feet by sq rule (feet)	meters	Drop by reality (KM)	in feet	Difference
35	56.3	816.7	248.92	0.24900	816.91	-0.2
36	57.9	864.0	263.3	0.26343	864.26	-0.3
37	59.5	912.7	278.2	0.27826	912.94	-0.3
38	61.2	962.7	293.4	0.29351	962.96	-0.3
39	62.8	1014.0	309.1	0.30916	1014.31	-0.3
40	64.4	1066.7	325.1	0.32522	1066.99	-0.3
41	66.0	1120.7	341.6	0.34168	1121.00	-0.3
42	67.6	1176.0	358.4	0.35855	1176.35	-0.4
43	69.2	1232.7	375.7	0.37583	1233.04	-0.4
44	70.8	1290.7	393.4	0.39351	1291.05	-0.4
45	72.4	1350.0	411.5	0.41160	1350.40	-0.4
46	74.0	1410.7	430.0	0.43010	1411.09	-0.4
47	75.6	1472.7	448.9	0.44900	1473.10	-0.4
48	77.2	1536.0	468.2	0.46831	1536.46	-0.5
49	78.9	1600.7	487.9	0.48803	1601.14	-0.5
50	80.5	1666.7	508.0	0.50815	1667.16	-0.5
51	82.1	1734.0	528.5	0.52868	1734.51	-0.5
52	83.7	1802.7	549.5	0.54961	1803.20	-0.5
53	85.3	1872.7	570.8	0.57096	1873.22	-0.6
54	86.9	1944.0	592.5	0.59271	1944.57	-0.6
55	88.5	2016.7	614.7	0.61486	2017.26	-0.6
56	90.1	2090.7	637.2	0.63742	2091.28	-0.6
57	91.7	2166.0	660.2	0.66039	2166.63	-0.6
58	93.3	2242.7	683.6	0.68376	2243.32	-0.7
59	95.0	2320.7	707.3	0.70754	2321.34	-0.7
60	96.6	2400.0	731.5	0.73173	2400.70	-0.7
61	98.2	2480.7	756.1	0.75633	2481.38	-0.7
62	99.8	2562.7	781.1	0.78133	2563.41	-0.7
63	101.4	2646.0	806.5	0.80673	2646.76	-0.8
64	103.0	2730.7	832.3	0.83255	2731.45	-0.8
65	104.6	2816.7	858.5	0.85877	2817.47	-0.8
66	106.2	2904.0	885.1	0.88539	2904.83	-0.8
67	107.8	2992.7	912.2	0.91243	2993.52	-0.9
68	109.4	3082.7	939.6	0.93986	3083.54	-0.9
69	111.0	3174.0	967.4	0.96771	3174.90	-0.9
70	112.7	3266.7	995.7	0.99596	3267.59	-0.9
71	114.3	3360.7	1024.3	1.02462	3361.62	-0.9

You can see from the table above that over 50 miles it is pretty close, I ended my table on 71 miles and you can see that your approximation gets further and further away.

Now, my rule came about from me sitting with pencil and paper along with basic rules of trigonometry and working it out from first principals. As a result I can explain exactly how it works.

Is your rule something you have found on the internet by any chance, something you feel you have been schooled into believing perhaps?

Lets forget about Earth for a moment. If I asked your to provide a rule for the circular drop of any planet of radius r over a distance of d, what would your formula be?

But if you can't do that, suppose your method is correct, what would be the circular drop on earth be on something the length of a bath? Can you work that out and tell us how much the globe model earth drop by over 1.5m (or 5 feet in ancient language)?

 

[Nobby]

8 inches per mile squared is wrong, but interestingly when you look at it, it is a reasonable rule of thumb for less than 100 miles, on a planet of the size of earth.

Mixing feet, inches and miles does muddy the water a bit, because imperial just gets odd and frustrating, but when you compare the rule I put forward (and someone agreed with above) over relative short distances they are actually pretty close. However the further and further distance, the more inaccurate it becomes:

Distance in miles	Distance in km	Drop in feet by sq rule (feet)	meters	Drop by reality (KM)	in feet	Difference
35	56.3	816.7	248.92	0.24900	816.91	-0.2
36	57.9	864.0	263.3	0.26343	864.26	-0.3
37	59.5	912.7	278.2	0.27826	912.94	-0.3
38	61.2	962.7	293.4	0.29351	962.96	-0.3
39	62.8	1014.0	309.1	0.30916	1014.31	-0.3
40	64.4	1066.7	325.1	0.32522	1066.99	-0.3
41	66.0	1120.7	341.6	0.34168	1121.00	-0.3
42	67.6	1176.0	358.4	0.35855	1176.35	-0.4
43	69.2	1232.7	375.7	0.37583	1233.04	-0.4
44	70.8	1290.7	393.4	0.39351	1291.05	-0.4
45	72.4	1350.0	411.5	0.41160	1350.40	-0.4
46	74.0	1410.7	430.0	0.43010	1411.09	-0.4
47	75.6	1472.7	448.9	0.44900	1473.10	-0.4
48	77.2	1536.0	468.2	0.46831	1536.46	-0.5
49	78.9	1600.7	487.9	0.48803	1601.14	-0.5
50	80.5	1666.7	508.0	0.50815	1667.16	-0.5
51	82.1	1734.0	528.5	0.52868	1734.51	-0.5
52	83.7	1802.7	549.5	0.54961	1803.20	-0.5
53	85.3	1872.7	570.8	0.57096	1873.22	-0.6
54	86.9	1944.0	592.5	0.59271	1944.57	-0.6
55	88.5	2016.7	614.7	0.61486	2017.26	-0.6
56	90.1	2090.7	637.2	0.63742	2091.28	-0.6
57	91.7	2166.0	660.2	0.66039	2166.63	-0.6
58	93.3	2242.7	683.6	0.68376	2243.32	-0.7
59	95.0	2320.7	707.3	0.70754	2321.34	-0.7
60	96.6	2400.0	731.5	0.73173	2400.70	-0.7
61	98.2	2480.7	756.1	0.75633	2481.38	-0.7
62	99.8	2562.7	781.1	0.78133	2563.41	-0.7
63	101.4	2646.0	806.5	0.80673	2646.76	-0.8
64	103.0	2730.7	832.3	0.83255	2731.45	-0.8
65	104.6	2816.7	858.5	0.85877	2817.47	-0.8
66	106.2	2904.0	885.1	0.88539	2904.83	-0.8
67	107.8	2992.7	912.2	0.91243	2993.52	-0.9
68	109.4	3082.7	939.6	0.93986	3083.54	-0.9
69	111.0	3174.0	967.4	0.96771	3174.90	-0.9
70	112.7	3266.7	995.7	0.99596	3267.59	-0.9
71	114.3	3360.7	1024.3	1.02462	3361.62	-0.9

You can see from the table above that over 50 miles it is pretty close, I ended my table on 71 miles and you can see that your approximation gets further and further away.

Now, my rule came about from me sitting with pencil and paper along with basic rules of trigonometry and working it out from first principals. As a result I can explain exactly how it works.

Is your rule something you have found on the internet by any chance, something you feel you have been schooled into believing perhaps?

Lets forget about Earth for a moment. If I asked your to provide a rule for the circular drop of any planet of radius r over a distance of d, what would your formula be?

But if you can't do that, suppose your method is correct, what would be the circular drop on earth be on something the length of a bath? Can you work that out and tell us how much the globe model earth drop by over 1.5m (or 5 feet in ancient language)?

Excellent but being pedantic asking him to do the maths for a planet is pejorative, he can have less complaint if asked to work it out for a globe of that size

 

[Bobthebasted]

8 inches per mile squared is wrong, but interestingly when you look at it, it is a reasonable rule of thumb for less than 100 miles, on a planet of the size of earth.

Mixing feet, inches and miles does muddy the water a bit, because imperial just gets odd and frustrating, but when you compare the rule I put forward (and someone agreed with above) over relative short distances they are actually pretty close. However the further and further distance, the more inaccurate it becomes:

Distance in miles	Distance in km	Drop in feet by sq rule (feet)	meters	Drop by reality (KM)	in feet	Difference
35	56.3	816.7	248.92	0.24900	816.91	-0.2
36	57.9	864.0	263.3	0.26343	864.26	-0.3
37	59.5	912.7	278.2	0.27826	912.94	-0.3
38	61.2	962.7	293.4	0.29351	962.96	-0.3
39	62.8	1014.0	309.1	0.30916	1014.31	-0.3
40	64.4	1066.7	325.1	0.32522	1066.99	-0.3
41	66.0	1120.7	341.6	0.34168	1121.00	-0.3
42	67.6	1176.0	358.4	0.35855	1176.35	-0.4
43	69.2	1232.7	375.7	0.37583	1233.04	-0.4
44	70.8	1290.7	393.4	0.39351	1291.05	-0.4
45	72.4	1350.0	411.5	0.41160	1350.40	-0.4
46	74.0	1410.7	430.0	0.43010	1411.09	-0.4
47	75.6	1472.7	448.9	0.44900	1473.10	-0.4
48	77.2	1536.0	468.2	0.46831	1536.46	-0.5
49	78.9	1600.7	487.9	0.48803	1601.14	-0.5
50	80.5	1666.7	508.0	0.50815	1667.16	-0.5
51	82.1	1734.0	528.5	0.52868	1734.51	-0.5
52	83.7	1802.7	549.5	0.54961	1803.20	-0.5
53	85.3	1872.7	570.8	0.57096	1873.22	-0.6
54	86.9	1944.0	592.5	0.59271	1944.57	-0.6
55	88.5	2016.7	614.7	0.61486	2017.26	-0.6
56	90.1	2090.7	637.2	0.63742	2091.28	-0.6
57	91.7	2166.0	660.2	0.66039	2166.63	-0.6
58	93.3	2242.7	683.6	0.68376	2243.32	-0.7
59	95.0	2320.7	707.3	0.70754	2321.34	-0.7
60	96.6	2400.0	731.5	0.73173	2400.70	-0.7
61	98.2	2480.7	756.1	0.75633	2481.38	-0.7
62	99.8	2562.7	781.1	0.78133	2563.41	-0.7
63	101.4	2646.0	806.5	0.80673	2646.76	-0.8
64	103.0	2730.7	832.3	0.83255	2731.45	-0.8
65	104.6	2816.7	858.5	0.85877	2817.47	-0.8
66	106.2	2904.0	885.1	0.88539	2904.83	-0.8
67	107.8	2992.7	912.2	0.91243	2993.52	-0.9
68	109.4	3082.7	939.6	0.93986	3083.54	-0.9
69	111.0	3174.0	967.4	0.96771	3174.90	-0.9
70	112.7	3266.7	995.7	0.99596	3267.59	-0.9
71	114.3	3360.7	1024.3	1.02462	3361.62	-0.9

You can see from the table above that over 50 miles it is pretty close, I ended my table on 71 miles and you can see that your approximation gets further and further away.

Now, my rule came about from me sitting with pencil and paper along with basic rules of trigonometry and working it out from first principals. As a result I can explain exactly how it works.

Is your rule something you have found on the internet by any chance, something you feel you have been schooled into believing perhaps?

Lets forget about Earth for a moment. If I asked your to provide a rule for the circular drop of any planet of radius r over a distance of d, what would your formula be?

But if you can't do that, suppose your method is correct, what would be the circular drop on earth be on something the length of a bath? Can you work that out and tell us how much the globe model earth drop by over 1.5m (or 5 feet in ancient language)?

A very good post and easy to understand.

 

[payne]

A very good post and easy to understand.

yeah if you believe fake maths . nee proof