My Newest Theory on 9/11 WTC plane Impacts

Long shot

cont .. my newest theory on WTC plane impacts



JPEGSnoop result on Robert Fisch photo. wtc_1_017_15.JPG below

I remember watching an old WTC being built video via NIST with that stupid 70's music. While watching that video I learned a few things. For Example, for safety reasons they made the outer wall a few feet above were the new floors would be so maintenance / construction workers could reach around and bolt in each new section and not fall to their death.. The plain worked perfectly and no one fell over the side . However, these four bolt seams could become a weak points to jet impacts. Maybe too many "No Plane Theorist" falsely believe the requirements were the columns themselves, however if you lower the requirements to four bolts then maybe its possible.  Both towers was a bolt based house of cards. Weaken the bolts and blast. Anywho, so dead center between each floor just has these four bolt based creases / seams running around entire side of the whole tower. I would love to map out these creases / seams and check for a prefect storm or maximum creases running between the floors and check to see if those planes went for those locations. Maybe the floors acted like pivot points and helped tear the steel belts which belted up the towers. Maybe someone knew the column sections were made to break-a-way on impact. They never said the towers would resist an impact, maybe the requirements was just survivability and to hell with the people inside.  One of issues was lack of resistance and the other was zero impact debris field. Maybe this solves those issues by lowering the requirements down to just the bolts.

This does not change the many issues that still exist. i.e

Robert Fisch  "the plane appeared to vanish" which could be dismissed but he is not the only one who reported this. http://s1.zetaboards.com/pumpitout/topic/1637033/1/

My name is Robert. I was having breakfast at Joe Junior's in the West Village when a crowd starting to form outside. In short order, we learned the World Trade had suffered some catastrophe.

After taking a look at the black gash in the facade of the building, I abandoned breakfast and ran to my apartment across the street and grabbed my camera. It was loaded and ready (I'd just gotton back from Florida several days before).

I snapped a few pictures and saw the second plane in my viewfinder. I snapped it instinctively. I had no idea it was going to hit the south tower.

My camera was trained on the towers when the second plane
came into view. The picture I took of the airplane should be in the repository.

As viewed from the north, the plane appeared to vanish. When the building erupted in flame, I still had this "disconnect" in my mind and at first refused to believe the plane I'd just seen hit the building. After a few seconds when the sound wave reached us, it was fairly clear that was what happened.

911datasets.org is down today!

JPEGsnoop 1.6.1 by Calvin Hass
  http://www.impulseadventure.com/photo/
  -------------------------------------

  Filename: [D:Vuze Downloads911datasets.org-2International_Center_for_911_Studies_NIST_FOIARelease_07Release 742A0006RobertFischwtc_1_017_15.JPG]
  Filesize: [556919] Bytes

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  Identifier      = [Exif]
  Identifier TIFF = 0x[49492A00 08000000]
  Endian          = Intel (little)
  TAG Mark x002A  = 0x002A

  EXIF IFD0 @ Absolute 0x00000026
    Dir Length = 0x000A
    [Make                                ] = "Eastman Kodak Company"
    [Model                               ] = "Kodak CLAS Digital Film Scanner / HR200"
    [Orientation                         ] = Row 0: top, Col 0: left
    [XResolution                         ] = 536870912/2097152
    [YResolution                         ] = 536870912/2097152
    [ResolutionUnit                      ] = Inch
    [Software                            ] = "Kodak Digital Central Lab System"
    [DateTime                            ] = "2001:09:16 02:26:44"
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    [JpegIFOffset                        ] = @ +0x03A8 = @ 0x03C6
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*** Marker: DQT (xFFDB) ***
  Define a Quantization Table.
  OFFSET: 0x00005415
  Table length = 197
  ----
  Precision=8 bits
  Destination ID=0 (Luminance)
    DQT, Row #0:   4   4   4   4   4   5   5   7
    DQT, Row #1:   4   4   4   4   4   5   5   7
    DQT, Row #2:   4   4   4   5   5   5   7   7
    DQT, Row #3:   4   4   5   5   7   7   9   9
    DQT, Row #4:   4   4   5   7   7   9  11  11
    DQT, Row #5:   5   5   5   7   9  11  12  14
    DQT, Row #6:   5   5   7   9  11  12  14  16
    DQT, Row #7:   7   7   7   9  11  14  16  20
    Approx quality factor = 92.04 (scaling=15.91 variance=62.56)
  ----
  Precision=8 bits
  Destination ID=1 (Chrominance)
    DQT, Row #0:   4   4   4   4   4   5   5   7
    DQT, Row #1:   4   4   4   4   4   5   5   7
    DQT, Row #2:   4   4   4   5   5   5   7   7
    DQT, Row #3:   4   4   5   5   7   7   9   9
    DQT, Row #4:   4   4   5   7   7   9  11  11
    DQT, Row #5:   5   5   5   7   9  11  12  14
    DQT, Row #6:   5   5   7   9  11  12  14  16
    DQT, Row #7:   7   7   7   9  11  14  16  20
    Approx quality factor = 95.31 (scaling=9.38 variance=25.04)
  ----
  Precision=8 bits
  Destination ID=2 (Chrominance)
    DQT, Row #0:   4   4   4   4   4   5   5   7
    DQT, Row #1:   4   4   4   4   4   5   5   7
    DQT, Row #2:   4   4   4   5   5   5   7   7
    DQT, Row #3:   4   4   5   5   7   7   9   9
    DQT, Row #4:   4   4   5   7   7   9  11  11
    DQT, Row #5:   5   5   5   7   9  11  12  14
    DQT, Row #6:   5   5   7   9  11  12  14  16
    DQT, Row #7:   7   7   7   9  11  14  16  20
    Approx quality factor = 95.31 (scaling=9.38 variance=25.04)
 
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  Frame header length = 17
  Precision = 8
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  Samples per Line = 1536
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  Raw Image Orientation = Landscape
  Number of Img components = 3
    Component[1]: ID=0x01, Samp Fac=0x22 (Subsamp 1 x 1), Quant Tbl Sel=0x00 (Lum: Y)
    Component[2]: ID=0x02, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cb)
    Component[3]: ID=0x03, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x02 (Chrom: Cr)
 
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
  OFFSET: 0x000054EF
  Huffman table length = 418
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  Destination ID = 0
  Class = 0 (DC / Lossless Table)
    Codes of length 01 bits (000 total):
    Codes of length 02 bits (002 total): 01 02
    Codes of length 03 bits (003 total): 00 03 04
    Codes of length 04 bits (001 total): 05
    Codes of length 05 bits (001 total): 06
    Codes of length 06 bits (001 total): 07
    Codes of length 07 bits (001 total): 08
    Codes of length 08 bits (000 total):
    Codes of length 09 bits (003 total): 09 0A 0B
    Codes of length 10 bits (000 total):
    Codes of length 11 bits (000 total):
    Codes of length 12 bits (000 total):
    Codes of length 13 bits (000 total):
    Codes of length 14 bits (000 total):
    Codes of length 15 bits (000 total):
    Codes of length 16 bits (000 total):
    Total number of codes: 012

  Expanded Form of Codes:
    Codes of length 02 bits:
      00 = 01                            (Total Len =  3)
      01 = 02                            (Total Len =  4)
    Codes of length 03 bits:
      100 = 00                           (Total Len =  3)
      101 = 03                           (Total Len =  6)
      110 = 04                           (Total Len =  7)
    Codes of length 04 bits:
      1110 = 05                          (Total Len =  9)
    Codes of length 05 bits:
      11110 = 06                         (Total Len = 11)
    Codes of length 06 bits:
      111110 = 07                        (Total Len = 13)
    Codes of length 07 bits:
      1111110 = 08                       (Total Len = 15)
    Codes of length 09 bits:
      111111100 = 09                     (Total Len = 18)
      111111101 = 0A                     (Total Len = 19)
      111111110 = 0B                     (Total Len = 20)

  ----
  Destination ID = 0
  Class = 1 (AC Table)
    Codes of length 01 bits (000 total):
    Codes of length 02 bits (001 total): 01
    Codes of length 03 bits (003 total): 00 02 11
    Codes of length 04 bits (002 total): 03 21
    Codes of length 05 bits (004 total): 04 12 31 41
    Codes of length 06 bits (003 total): 51 61 71
    Codes of length 07 bits (006 total): 05 13 22 81 91 A1
    Codes of length 08 bits (004 total): 32 B1 C1 F0
    Codes of length 09 bits (004 total): 14 42 52 D1
    Codes of length 10 bits (005 total): 06 23 62 72 E1
    Codes of length 11 bits (001 total): 33
    Codes of length 12 bits (002 total): F1 15
    Codes of length 13 bits (000 total):
    Codes of length 14 bits (000 total):
    Codes of length 15 bits (000 total):
    Codes of length 16 bits (127 total): 82 92 B2 24 43 53 73 A2 34 63 C2 16 83 25 B3 D2
                                         07 35 44 54 64 74 93 A3 E2 C3 F2 17 45 55 84 94
                                         A4 26 65 75 B4 D3 08 09 0A 18 19 1A 27 28 29 2A
                                         36 37 38 39 3A 46 47 48 49 4A 56 57 58 59 5A 66
                                         67 68 69 6A 76 77 78 79 7A 85 86 87 88 89 8A 95
                                         96 97 98 99 9A A5 A6 A7 A8 A9 AA B5 B6 B7 B8 B9
                                         BA C4 C5 C6 C7 C8 C9 CA D4 D5 D6 D7 D8 D9 DA E3
                                         E4 E5 E6 E7 E8 E9 EA F3 F4 F5 F6 F7 F8 F9 FA
    Total number of codes: 162

  Expanded Form of Codes:
    Codes of length 02 bits:
      00 = 01                            (Total Len =  3)
    Codes of length 03 bits:
      010 = 00 (EOB)                     (Total Len =  3)
      011 = 02                           (Total Len =  5)
      100 = 11                           (Total Len =  4)
    Codes of length 04 bits:
      1010 = 03                          (Total Len =  7)
      1011 = 21                          (Total Len =  5)
    Codes of length 05 bits:
      11000 = 04                         (Total Len =  9)
      11001 = 12                         (Total Len =  7)
      11010 = 31                         (Total Len =  6)
      11011 = 41                         (Total Len =  6)
    Codes of length 06 bits:
      111000 = 51                        (Total Len =  7)
      111001 = 61                        (Total Len =  7)
      111010 = 71                        (Total Len =  7)
    Codes of length 07 bits:
      1110110 = 05                       (Total Len = 12)
      1110111 = 13                       (Total Len = 10)
      1111000 = 22                       (Total Len =  9)
      1111001 = 81                       (Total Len =  8)
      1111010 = 91                       (Total Len =  8)
      1111011 = A1                       (Total Len =  8)
    Codes of length 08 bits:
      11111000 = 32                      (Total Len = 10)
      11111001 = B1                      (Total Len =  9)
      11111010 = C1                      (Total Len =  9)
      11111011 = F0 (ZRL)                (Total Len =  8)
    Codes of length 09 bits:
      111111000 = 14                     (Total Len = 13)
      111111001 = 42                     (Total Len = 11)
      111111010 = 52                     (Total Len = 11)
      111111011 = D1                     (Total Len = 10)
    Codes of length 10 bits:
      1111111000 = 06                    (Total Len = 16)
      1111111001 = 23                    (Total Len = 13)
      1111111010 = 62                    (Total Len = 12)
      1111111011 = 72                    (Total Len = 12)
      1111111100 = E1                    (Total Len = 11)
    Codes of length 11 bits:
      11111111010 = 33                   (Total Len = 14)
    Codes of length 12 bits:
      111111110110 = F1                  (Total Len = 13)
      111111110111 = 15                  (Total Len = 17)
    Codes of length 16 bits:
      1111111110000000 = 82              (Total Len = 18)
      1111111110000001 = 92              (Total Len = 18)
      1111111110000010 = B2              (Total Len = 18)
      1111111110000011 = 24              (Total Len = 20)
      1111111110000100 = 43              (Total Len = 19)
      1111111110000101 = 53              (Total Len = 19)
      1111111110000110 = 73              (Total Len = 19)
      1111111110000111 = A2              (Total Len = 18)
      1111111110001000 = 34              (Total Len = 20)
      1111111110001001 = 63              (Total Len = 19)
      1111111110001010 = C2              (Total Len = 18)
      1111111110001011 = 16              (Total Len = 22)
      1111111110001100 = 83              (Total Len = 19)
      1111111110001101 = 25              (Total Len = 21)
      1111111110001110 = B3              (Total Len = 19)
      1111111110001111 = D2              (Total Len = 18)
      1111111110010000 = 07              (Total Len = 23)
      1111111110010001 = 35              (Total Len = 21)
      1111111110010010 = 44              (Total Len = 20)
      1111111110010011 = 54              (Total Len = 20)
      1111111110010100 = 64              (Total Len = 20)
      1111111110010101 = 74              (Total Len = 20)
      1111111110010110 = 93              (Total Len = 19)
      1111111110010111 = A3              (Total Len = 19)
      1111111110011000 = E2              (Total Len = 18)
      1111111110011001 = C3              (Total Len = 19)
      1111111110011010 = F2              (Total Len = 18)
      1111111110011011 = 17              (Total Len = 23)
      1111111110011100 = 45              (Total Len = 21)
      1111111110011101 = 55              (Total Len = 21)
      1111111110011110 = 84              (Total Len = 20)
      1111111110011111 = 94              (Total Len = 20)
      1111111110100000 = A4              (Total Len = 20)
      1111111110100001 = 26              (Total Len = 22)
      1111111110100010 = 65              (Total Len = 21)
      1111111110100011 = 75              (Total Len = 21)
      1111111110100100 = B4              (Total Len = 20)
      1111111110100101 = D3              (Total Len = 19)
      1111111110100110 = 08              (Total Len = 24)
      1111111110100111 = 09              (Total Len = 25)
      1111111110101000 = 0A              (Total Len = 26)
      1111111110101001 = 18              (Total Len = 24)
      1111111110101010 = 19              (Total Len = 25)
      1111111110101011 = 1A              (Total Len = 26)
      1111111110101100 = 27              (Total Len = 23)
      1111111110101101 = 28              (Total Len = 24)
      1111111110101110 = 29              (Total Len = 25)
      1111111110101111 = 2A              (Total Len = 26)
      1111111110110000 = 36              (Total Len = 22)
      1111111110110001 = 37              (Total Len = 23)
      1111111110110010 = 38              (Total Len = 24)
      1111111110110011 = 39              (Total Len = 25)
      1111111110110100 = 3A              (Total Len = 26)
      1111111110110101 = 46              (Total Len = 22)
      1111111110110110 = 47              (Total Len = 23)
      1111111110110111 = 48              (Total Len = 24)
      1111111110111000 = 49              (Total Len = 25)
      1111111110111001 = 4A              (Total Len = 26)
      1111111110111010 = 56              (Total Len = 22)
      1111111110111011 = 57              (Total Len = 23)
      1111111110111100 = 58              (Total Len = 24)
      1111111110111101 = 59              (Total Len = 25)
      1111111110111110 = 5A              (Total Len = 26)
      1111111110111111 = 66              (Total Len = 22)
      1111111111000000 = 67              (Total Len = 23)
      1111111111000001 = 68              (Total Len = 24)
      1111111111000010 = 69              (Total Len = 25)
      1111111111000011 = 6A              (Total Len = 26)
      1111111111000100 = 76              (Total Len = 22)
      1111111111000101 = 77              (Total Len = 23)
      1111111111000110 = 78              (Total Len = 24)
      1111111111000111 = 79              (Total Len = 25)
      1111111111001000 = 7A              (Total Len = 26)
      1111111111001001 = 85              (Total Len = 21)
      1111111111001010 = 86              (Total Len = 22)
      1111111111001011 = 87              (Total Len = 23)
      1111111111001100 = 88              (Total Len = 24)
      1111111111001101 = 89              (Total Len = 25)
      1111111111001110 = 8A              (Total Len = 26)
      1111111111001111 = 95              (Total Len = 21)
      1111111111010000 = 96              (Total Len = 22)
      1111111111010001 = 97              (Total Len = 23)
      1111111111010010 = 98              (Total Len = 24)
      1111111111010011 = 99              (Total Len = 25)
      1111111111010100 = 9A              (Total Len = 26)
      1111111111010101 = A5              (Total Len = 21)
      1111111111010110 = A6              (Total Len = 22)
      1111111111010111 = A7              (Total Len = 23)
      1111111111011000 = A8              (Total Len = 24)
      1111111111011001 = A9              (Total Len = 25)
      1111111111011010 = AA              (Total Len = 26)
      1111111111011011 = B5              (Total Len = 21)
      1111111111011100 = B6              (Total Len = 22)
      1111111111011101 = B7              (Total Len = 23)
      1111111111011110 = B8              (Total Len = 24)
      1111111111011111 = B9              (Total Len = 25)
      1111111111100000 = BA              (Total Len = 26)
      1111111111100001 = C4              (Total Len = 20)
      1111111111100010 = C5              (Total Len = 21)
      1111111111100011 = C6              (Total Len = 22)
      1111111111100100 = C7              (Total Len = 23)
      1111111111100101 = C8              (Total Len = 24)
      1111111111100110 = C9              (Total Len = 25)
      1111111111100111 = CA              (Total Len = 26)
      1111111111101000 = D4              (Total Len = 20)
      1111111111101001 = D5              (Total Len = 21)
      1111111111101010 = D6              (Total Len = 22)
      1111111111101011 = D7              (Total Len = 23)
      1111111111101100 = D8              (Total Len = 24)
      1111111111101101 = D9              (Total Len = 25)
      1111111111101110 = DA              (Total Len = 26)
      1111111111101111 = E3              (Total Len = 19)
      1111111111110000 = E4              (Total Len = 20)
      1111111111110001 = E5              (Total Len = 21)
      1111111111110010 = E6              (Total Len = 22)
      1111111111110011 = E7              (Total Len = 23)
      1111111111110100 = E8              (Total Len = 24)
      1111111111110101 = E9              (Total Len = 25)
      1111111111110110 = EA              (Total Len = 26)
      1111111111110111 = F3              (Total Len = 19)
      1111111111111000 = F4              (Total Len = 20)
      1111111111111001 = F5              (Total Len = 21)
      1111111111111010 = F6              (Total Len = 22)
      1111111111111011 = F7              (Total Len = 23)
      1111111111111100 = F8              (Total Len = 24)
      1111111111111101 = F9              (Total Len = 25)
      1111111111111110 = FA              (Total Len = 26)

  ----
  Destination ID = 1
  Class = 0 (DC / Lossless Table)
    Codes of length 01 bits (000 total):
    Codes of length 02 bits (003 total): 00 01 02
    Codes of length 03 bits (001 total): 03
    Codes of length 04 bits (001 total): 04
    Codes of length 05 bits (001 total): 05
    Codes of length 06 bits (001 total): 06
    Codes of length 07 bits (001 total): 07
    Codes of length 08 bits (001 total): 08
    Codes of length 09 bits (001 total): 09
    Codes of length 10 bits (001 total): 0A
    Codes of length 11 bits (001 total): 0B
    Codes of length 12 bits (000 total):
    Codes of length 13 bits (000 total):
    Codes of length 14 bits (000 total):
    Codes of length 15 bits (000 total):
    Codes of length 16 bits (000 total):
    Total number of codes: 012

  Expanded Form of Codes:
    Codes of length 02 bits:
      00 = 00                            (Total Len =  2)
      01 = 01                            (Total Len =  3)
      10 = 02                            (Total Len =  4)
    Codes of length 03 bits:
      110 = 03                           (Total Len =  6)
    Codes of length 04 bits:
      1110 = 04                          (Total Len =  8)
    Codes of length 05 bits:
      11110 = 05                         (Total Len = 10)
    Codes of length 06 bits:
      111110 = 06                        (Total Len = 12)
    Codes of length 07 bits:
      1111110 = 07                       (Total Len = 14)
    Codes of length 08 bits:
      11111110 = 08                      (Total Len = 16)
    Codes of length 09 bits:
      111111110 = 09                     (Total Len = 18)
    Codes of length 10 bits:
      1111111110 = 0A                    (Total Len = 20)
    Codes of length 11 bits:
      11111111110 = 0B                   (Total Len = 22)

  ----
  Destination ID = 1
  Class = 1 (AC Table)
    Codes of length 01 bits (000 total):
    Codes of length 02 bits (002 total): 00 01
    Codes of length 03 bits (001 total): 02
    Codes of length 04 bits (002 total): 03 11
    Codes of length 05 bits (004 total): 04 05 21 31
    Codes of length 06 bits (004 total): 06 12 41 51
    Codes of length 07 bits (003 total): 07 61 71
    Codes of length 08 bits (004 total): 13 22 32 81
    Codes of length 09 bits (007 total): 08 14 42 91 A1 B1 C1
    Codes of length 10 bits (005 total): 09 23 33 52 F0
    Codes of length 11 bits (004 total): 15 62 72 D1
    Codes of length 12 bits (004 total): 0A 16 24 34
    Codes of length 13 bits (000 total):
    Codes of length 14 bits (001 total): E1
    Codes of length 15 bits (002 total): 25 F1
    Codes of length 16 bits (119 total): 17 18 19 1A 26 27 28 29 2A 35 36 37 38 39 3A 43
                                         44 45 46 47 48 49 4A 53 54 55 56 57 58 59 5A 63
                                         64 65 66 67 68 69 6A 73 74 75 76 77 78 79 7A 82
                                         83 84 85 86 87 88 89 8A 92 93 94 95 96 97 98 99
                                         9A A2 A3 A4 A5 A6 A7 A8 A9 AA B2 B3 B4 B5 B6 B7
                                         B8 B9 BA C2 C3 C4 C5 C6 C7 C8 C9 CA D2 D3 D4 D5
                                         D6 D7 D8 D9 DA E2 E3 E4 E5 E6 E7 E8 E9 EA F2 F3
                                         F4 F5 F6 F7 F8 F9 FA
    Total number of codes: 162

  Expanded Form of Codes:
    Codes of length 02 bits:
      00 = 00 (EOB)                      (Total Len =  2)
      01 = 01                            (Total Len =  3)
    Codes of length 03 bits:
      100 = 02                           (Total Len =  5)
    Codes of length 04 bits:
      1010 = 03                          (Total Len =  7)
      1011 = 11                          (Total Len =  5)
    Codes of length 05 bits:
      11000 = 04                         (Total Len =  9)
      11001 = 05                         (Total Len = 10)
      11010 = 21                         (Total Len =  6)
      11011 = 31                         (Total Len =  6)
    Codes of length 06 bits:
      111000 = 06                        (Total Len = 12)
      111001 = 12                        (Total Len =  8)
      111010 = 41                        (Total Len =  7)
      111011 = 51                        (Total Len =  7)
    Codes of length 07 bits:
      1111000 = 07                       (Total Len = 14)
      1111001 = 61                       (Total Len =  8)
      1111010 = 71                       (Total Len =  8)
    Codes of length 08 bits:
      11110110 = 13                      (Total Len = 11)
      11110111 = 22                      (Total Len = 10)
      11111000 = 32                      (Total Len = 10)
      11111001 = 81                      (Total Len =  9)
    Codes of length 09 bits:
      111110100 = 08                     (Total Len = 17)
      111110101 = 14                     (Total Len = 13)
      111110110 = 42                     (Total Len = 11)
      111110111 = 91                     (Total Len = 10)
      111111000 = A1                     (Total Len = 10)
      111111001 = B1                     (Total Len = 10)
      111111010 = C1                     (Total Len = 10)
    Codes of length 10 bits:
      1111110110 = 09                    (Total Len = 19)
      1111110111 = 23                    (Total Len = 13)
      1111111000 = 33                    (Total Len = 13)
      1111111001 = 52                    (Total Len = 12)
      1111111010 = F0 (ZRL)              (Total Len = 10)
    Codes of length 11 bits:
      11111110110 = 15                   (Total Len = 16)
      11111110111 = 62                   (Total Len = 13)
      11111111000 = 72                   (Total Len = 13)
      11111111001 = D1                   (Total Len = 12)
    Codes of length 12 bits:
      111111110100 = 0A                  (Total Len = 22)
      111111110101 = 16                  (Total Len = 18)
      111111110110 = 24                  (Total Len = 16)
      111111110111 = 34                  (Total Len = 16)
    Codes of length 14 bits:
      11111111100000 = E1                (Total Len = 15)
    Codes of length 15 bits:
      111111111000010 = 25               (Total Len = 20)
      111111111000011 = F1               (Total Len = 16)
    Codes of length 16 bits:
      1111111110001000 = 17              (Total Len = 23)
      1111111110001001 = 18              (Total Len = 24)
      1111111110001010 = 19              (Total Len = 25)
      1111111110001011 = 1A              (Total Len = 26)
      1111111110001100 = 26              (Total Len = 22)
      1111111110001101 = 27              (Total Len = 23)
      1111111110001110 = 28              (Total Len = 24)
      1111111110001111 = 29              (Total Len = 25)
      1111111110010000 = 2A              (Total Len = 26)
      1111111110010001 = 35              (Total Len = 21)
      1111111110010010 = 36              (Total Len = 22)
      1111111110010011 = 37              (Total Len = 23)
      1111111110010100 = 38              (Total Len = 24)
      1111111110010101 = 39              (Total Len = 25)
      1111111110010110 = 3A              (Total Len = 26)
      1111111110010111 = 43              (Total Len = 19)
      1111111110011000 = 44              (Total Len = 20)
      1111111110011001 = 45              (Total Len = 21)
      1111111110011010 = 46              (Total Len = 22)
      1111111110011011 = 47              (Total Len = 23)
      1111111110011100 = 48              (Total Len = 24)
      1111111110011101 = 49              (Total Len = 25)
      1111111110011110 = 4A              (Total Len = 26)
      1111111110011111 = 53              (Total Len = 19)
      1111111110100000 = 54              (Total Len = 20)
      1111111110100001 = 55              (Total Len = 21)
      1111111110100010 = 56              (Total Len = 22)
      1111111110100011 = 57              (Total Len = 23)
      1111111110100100 = 58              (Total Len = 24)
      1111111110100101 = 59              (Total Len = 25)
      1111111110100110 = 5A              (Total Len = 26)
      1111111110100111 = 63              (Total Len = 19)
      1111111110101000 = 64              (Total Len = 20)
      1111111110101001 = 65              (Total Len = 21)
      1111111110101010 = 66              (Total Len = 22)
      1111111110101011 = 67              (Total Len = 23)
      1111111110101100 = 68              (Total Len = 24)
      1111111110101101 = 69              (Total Len = 25)
      1111111110101110 = 6A              (Total Len = 26)
      1111111110101111 = 73              (Total Len = 19)
      1111111110110000 = 74              (Total Len = 20)
      1111111110110001 = 75              (Total Len = 21)
      1111111110110010 = 76              (Total Len = 22)
      1111111110110011 = 77              (Total Len = 23)
      1111111110110100 = 78              (Total Len = 24)
      1111111110110101 = 79              (Total Len = 25)
      1111111110110110 = 7A              (Total Len = 26)
      1111111110110111 = 82              (Total Len = 18)
      1111111110111000 = 83              (Total Len = 19)
      1111111110111001 = 84              (Total Len = 20)
      1111111110111010 = 85              (Total Len = 21)
      1111111110111011 = 86              (Total Len = 22)
      1111111110111100 = 87              (Total Len = 23)
      1111111110111101 = 88              (Total Len = 24)
      1111111110111110 = 89              (Total Len = 25)
      1111111110111111 = 8A              (Total Len = 26)
      1111111111000000 = 92              (Total Len = 18)
      1111111111000001 = 93              (Total Len = 19)
      1111111111000010 = 94              (Total Len = 20)
      1111111111000011 = 95              (Total Len = 21)
      1111111111000100 = 96              (Total Len = 22)
      1111111111000101 = 97              (Total Len = 23)
      1111111111000110 = 98              (Total Len = 24)
      1111111111000111 = 99              (Total Len = 25)
      1111111111001000 = 9A              (Total Len = 26)
      1111111111001001 = A2              (Total Len = 18)
      1111111111001010 = A3              (Total Len = 19)
      1111111111001011 = A4              (Total Len = 20)
      1111111111001100 = A5              (Total Len = 21)
      1111111111001101 = A6              (Total Len = 22)
      1111111111001110 = A7              (Total Len = 23)
      1111111111001111 = A8              (Total Len = 24)
      1111111111010000 = A9              (Total Len = 25)
      1111111111010001 = AA              (Total Len = 26)
      1111111111010010 = B2              (Total Len = 18)
      1111111111010011 = B3              (Total Len = 19)
      1111111111010100 = B4              (Total Len = 20)
      1111111111010101 = B5              (Total Len = 21)
      1111111111010110 = B6              (Total Len = 22)
      1111111111010111 = B7              (Total Len = 23)
      1111111111011000 = B8              (Total Len = 24)
      1111111111011001 = B9              (Total Len = 25)
      1111111111011010 = BA              (Total Len = 26)
      1111111111011011 = C2              (Total Len = 18)
      1111111111011100 = C3              (Total Len = 19)
      1111111111011101 = C4              (Total Len = 20)
      1111111111011110 = C5              (Total Len = 21)
      1111111111011111 = C6              (Total Len = 22)
      1111111111100000 = C7              (Total Len = 23)
      1111111111100001 = C8              (Total Len = 24)
      1111111111100010 = C9              (Total Len = 25)
      1111111111100011 = CA              (Total Len = 26)
      1111111111100100 = D2              (Total Len = 18)
      1111111111100101 = D3              (Total Len = 19)
      1111111111100110 = D4              (Total Len = 20)
      1111111111100111 = D5              (Total Len = 21)
      1111111111101000 = D6              (Total Len = 22)
      1111111111101001 = D7              (Total Len = 23)
      1111111111101010 = D8              (Total Len = 24)
      1111111111101011 = D9              (Total Len = 25)
      1111111111101100 = DA              (Total Len = 26)
      1111111111101101 = E2              (Total Len = 18)
      1111111111101110 = E3              (Total Len = 19)
      1111111111101111 = E4              (Total Len = 20)
      1111111111110000 = E5              (Total Len = 21)
      1111111111110001 = E6              (Total Len = 22)
      1111111111110010 = E7              (Total Len = 23)
      1111111111110011 = E8              (Total Len = 24)
      1111111111110100 = E9              (Total Len = 25)
      1111111111110101 = EA              (Total Len = 26)
      1111111111110110 = F2              (Total Len = 18)
      1111111111110111 = F3              (Total Len = 19)
      1111111111111000 = F4              (Total Len = 20)
      1111111111111001 = F5              (Total Len = 21)
      1111111111111010 = F6              (Total Len = 22)
      1111111111111011 = F7              (Total Len = 23)
      1111111111111100 = F8              (Total Len = 24)
      1111111111111101 = F9              (Total Len = 25)
      1111111111111110 = FA              (Total Len = 26)

 
*** Marker: SOS (Start of Scan) (xFFDA) ***
  OFFSET: 0x00005693
  Scan header length = 12
  Number of img components = 3
    Component[1]: selector=0x01, table=0(DC),0(AC)
    Component[2]: selector=0x02, table=1(DC),1(AC)
    Component[3]: selector=0x03, table=1(DC),1(AC)
  Spectral selection = 0 .. 63
  Successive approximation = 0x00

  Scan Data: (after bitstuff removed)
    fd 32 fa 9a f9 92 78 6c 34 3d 36 d3 45 99 c6 60 89 04 8b c1 bf 1d b4 80 ae a8 dc f7 b6 90 41 90
    04 9b dc f1 ea b3 b9 d1 25 b9 73 38 19 88 26 04 cc fb 6e 63 6b 2e 75 2d bf 9b 4d de b7 be 9e bf
    71 d7 6f 4b 6b b6 c2 92 4c 91 95 c1 d3 a9 20 fc 20 82 74 d2 de 46 35 48 e7 83 06 01 30 0b 72 8b
    08 20 11 e1 b5 ba f4 51 d7 dc 49 e3 b7 3e 57 9d e7 42 a9 2e 9b 09 ca 04 cf 30 e9 cb 7b e9 c0 6c
    a9 5a eb 75 65 6d 6d 6e cb a7 a3 13 5a 77 d6 fa 6f e7 fa f5 1f 34 8b 48 1a 65 3c 04 ba da e8 4d
    b4 dc 21 9e d6 21 f9 ac 26 35 3a e9 6d e7 4d 38 2a a7 e2 83 17 31 02 04 ce 82 db f1 9d b4 41 cf
    30 1d 72 01 d8 e8 27 8f 0f 59 95 aa 6a d1 4f 5d 1a eb f2 bf 6f f8 06 6d 37 76 ad ae bf 23 4b 6a
    34 13 a0 cc 33 1f 87 f3 09 33 17 be f1 b2 70 e7 58 38 b8 c9 37 26 e0 c4 75 98 e4 b0 67 6c b6 c4
    b5 c0 cc 83 e1 26 e3 5b fe 9e 2a d0 f0 e6 f8 88 07 88 30 4c dc 69 d4 74 95 4a a5 93 57 b7 2b 7b
    5d ab 6f b7 ea 27 4d 36 b4 4e f6 de db dc eb 02 40 83 12 46 59 93 32 48 16 02 49 83 79 bc 2b 4b
    88 6d ec e7 78 ac 66 44 c5 b7 3f e5 72 e9 d4 cc e3 e1 6c b0 90 00 d7 2e e4 0e 63 55 b7 3f f5 34
    37 29 00 48 30 3e 21 63 c2 fc ec a6 55 35 fb ba eb b2 d2 d6 ee 25 4d 25 aa ff 86 f5 36 07 48 10
    0d dc ef 17 02 38 a4 74 17 19 16 9e 1c 00 17 91 17 17 d2 3a aa 7b cb c8 0d 02 f6 d3 96 9a 00 3e
    49 8b c1 22 0e 61 a4 8d 24 49 17 3a 7e ca a1 3d 7c b6 d3 e7 fa d8 99 d3 f2 4f 56 ec 6a 6d 9a d8
    b8 b3 63 4e 27 7d 27 a2 b0 4e b0 20 9c a2 46 80 5f 6f 3d ca c8 c7 83 12 e0 24 9f 6d 4c 9e 1a cc
    0d d5 c0 cc ed 06 fa c6 87 87 aa 89 3b df 96 f6 b7 36 fb bf f3 2e 31 b2 d7 75 db d6 c5 b1 b8 b0
    cd a9 07 49 be 9f 35 09 6e 82 04 40 31 24 6f 61 a7 35 5b 4b 40 00 93 79 d3 42 09 e3 1c 27 86 89
    b9 b8 89 f8 4e d3 24 e5 1b fd 39 ac d3 77 7d b4 f5 7f 79 6d 7c f7 df b9 24 08 02 41 b9 92 4c 1d
    86 90 6d a7 92 ae 67 e2 2e 93 02 2e 20 f1 31 a0 d2 6e a3 a6 6f 79 be bc 01 99 8b 5a 27 44 a4 4c
    49 9f 10 9d ec 26 d1 7e 3e 69 a7 66 94 b6 5b ef bd b4 f3 25 c5 e8 fb f4 fb 9f 40 9d c0 89 30 2c
    WARNING: Dump truncated.

*** Decoding SCAN Data ***
  OFFSET: 0x000056A1
  Scan Decode Mode: Full IDCT (AC + DC)

  Scan Data encountered marker   0xFFD9 @ 0x00087F75.0

  Compression stats:
    Compression Ratio:  8.82:1
    Bits per pixel:     2.72:1

  Huffman code histogram stats:
    Huffman Table: (Dest ID: 0, Class: DC)
      # codes of length 01 bits:        0 (  0%)
      # codes of length 02 bits:     9322 ( 38%)
      # codes of length 03 bits:     9112 ( 37%)
      # codes of length 04 bits:     2562 ( 10%)
      # codes of length 05 bits:     1649 (  7%)
      # codes of length 06 bits:     1353 (  6%)
      # codes of length 07 bits:      536 (  2%)
      # codes of length 08 bits:        0 (  0%)
      # codes of length 09 bits:       42 (  0%)
      # codes of length 10 bits:        0 (  0%)
      # codes of length 11 bits:        0 (  0%)
      # codes of length 12 bits:        0 (  0%)
      # codes of length 13 bits:        0 (  0%)
      # codes of length 14 bits:        0 (  0%)
      # codes of length 15 bits:        0 (  0%)
      # codes of length 16 bits:        0 (  0%)

    Huffman Table: (Dest ID: 1, Class: DC)
      # codes of length 01 bits:        0 (  0%)
      # codes of length 02 bits:     9600 ( 78%)
      # codes of length 03 bits:     1125 (  9%)
      # codes of length 04 bits:      913 (  7%)
      # codes of length 05 bits:      498 (  4%)
      # codes of length 06 bits:      140 (  1%)
      # codes of length 07 bits:       12 (  0%)
      # codes of length 08 bits:        0 (  0%)
      # codes of length 09 bits:        0 (  0%)
      # codes of length 10 bits:        0 (  0%)
      # codes of length 11 bits:        0 (  0%)
      # codes of length 12 bits:        0 (  0%)
      # codes of length 13 bits:        0 (  0%)
      # codes of length 14 bits:        0 (  0%)
      # codes of length 15 bits:        0 (  0%)
      # codes of length 16 bits:        0 (  0%)

    Huffman Table: (Dest ID: 0, Class: AC)
      # codes of length 01 bits:        0 (  0%)
      # codes of length 02 bits:   234555 ( 35%)
      # codes of length 03 bits:   208749 ( 32%)
      # codes of length 04 bits:    82957 ( 13%)
      # codes of length 05 bits:    78665 ( 12%)
      # codes of length 06 bits:    19820 (  3%)
      # codes of length 07 bits:    24629 (  4%)
      # codes of length 08 bits:     4347 (  1%)
      # codes of length 09 bits:     2980 (  0%)
      # codes of length 10 bits:     3613 (  1%)
      # codes of length 11 bits:      133 (  0%)
      # codes of length 12 bits:      777 (  0%)
      # codes of length 13 bits:        0 (  0%)
      # codes of length 14 bits:        0 (  0%)
      # codes of length 15 bits:        0 (  0%)
      # codes of length 16 bits:     1117 (  0%)

    Huffman Table: (Dest ID: 1, Class: AC)
      # codes of length 01 bits:        0 (  0%)
      # codes of length 02 bits:    67911 ( 39%)
      # codes of length 03 bits:    11878 (  7%)
      # codes of length 04 bits:    31593 ( 18%)
      # codes of length 05 bits:    29072 ( 17%)
      # codes of length 06 bits:    15481 (  9%)
      # codes of length 07 bits:     6445 (  4%)
      # codes of length 08 bits:     4027 (  2%)
      # codes of length 09 bits:     4755 (  3%)
      # codes of length 10 bits:     1565 (  1%)
      # codes of length 11 bits:      800 (  0%)
      # codes of length 12 bits:       12 (  0%)
      # codes of length 13 bits:        0 (  0%)
      # codes of length 14 bits:      406 (  0%)
      # codes of length 15 bits:      302 (  0%)
      # codes of length 16 bits:      161 (  0%)

  YCC clipping in DC:
    Y  component: [<0=    0] [>255=    0]
    Cb component: [<0=    0] [>255=    0]
    Cr component: [<0=    0] [>255=    0]

  RGB clipping in DC:
    R  component: [<0=    0] [>255=    0]
    G  component: [<0=    0] [>255=    0]
    B  component: [<0=    0] [>255=    0]

  Average Pixel Luminance (Y):
    Y=[162] (range: 0..255)

  Brightest Pixel Search:
    YCC=[ 1014,  -43,   20] RGB=[255,254,243] @ MCU[ 49, 46]

  Finished Decoding SCAN Data
    Number of RESTART markers decoded: 0
    Next position in scan buffer: Offset 0x00087F74.7

 
*** Marker: EOI (End of Image) (xFFD9) ***
  OFFSET: 0x00087F75

*** Embedded JPEG Thumbnail ***
  Offset: 0x000003C6
  Length: 0x00004DCB (19915)

  * Embedded Thumb Marker: SOI

  * Embedded Thumb Marker: DQT
    Length = 132
    ----
    Precision=0 bits
    Destination ID=0 (Luminance, typically)
      DQT, Row #0:   3   2   2   3   5   8  10  12
      DQT, Row #1:   2   2   3   4   5  12  12  11
      DQT, Row #2:   3   3   3   5   8  11  14  11
      DQT, Row #3:   3   3   4   6  10  17  16  12
      DQT, Row #4:   4   4   7  11  14  22  21  15
      DQT, Row #5:   5   7  11  13  16  21  23  18
      DQT, Row #6:  10  13  16  17  21  24  24  20
      DQT, Row #7:  14  18  19  20  22  20  21  20
    ----
    Precision=0 bits
    Destination ID=1 (Chrominance, typically)
      DQT, Row #0:   3   4   5   9  20  20  20  20
      DQT, Row #1:   4   4   5  13  20  20  20  20
      DQT, Row #2:   5   5  11  20  20  20  20  20
      DQT, Row #3:   9  13  20  20  20  20  20  20
      DQT, Row #4:  20  20  20  20  20  20  20  20
      DQT, Row #5:  20  20  20  20  20  20  20  20
      DQT, Row #6:  20  20  20  20  20  20  20  20
      DQT, Row #7:  20  20  20  20  20  20  20  20

  * Embedded Thumb Marker: SOF
    Frame header length = 17
    Precision = 8
    Number of Lines = 192
    Samples per Line = 288
    Image Size = 288 x 192

  * Embedded Thumb Marker: DHT
    Length = 418

  * Embedded Thumb Marker: SOS
    Skipping scan data
    Skipped 19336 bytes

  * Embedded Thumb Marker: EOI

  * Embedded Thumb Signature: 013BA18D5561625796E986FDBC09F846

*** Searching Compression Signatures ***

  Signature:           01133EF9C34B76146AEB2B8F18BC6180
  Signature (Rotated): 01133EF9C34B76146AEB2B8F18BC6180
  File Offset:         0 bytes
  Chroma subsampling:  2x2
  EXIF Make/Model:     OK   [Eastman Kodak Company] [Kodak CLAS Digital Film Scanner / HR200]
  EXIF Makernotes:     NONE
  EXIF Software:       OK   [Kodak Digital Central Lab System]

  Searching Compression Signatures: (3347 built-in, 1 user(*) )

          EXIF.Make / Software        EXIF.Model                            Quality           Subsamp Match?
          -------------------------   -----------------------------------   ----------------  --------------

  Based on the analysis of compression characteristics and EXIF metadata:

  ASSESSMENT: Class 2 - Image has high probability of being processed/edited

 

Smithsonian Exposed

Smithsonian Exposed

Smithsonian Depraved 9/11 propaganda film "911 Stories"  Review

Kerry Hunt managed to squeak through only two seconds of 9/11 Truth past the Smithsonian editors among an ocean of some of the worst depraved retelling of 9/11 I have seen in years. Complete with criminal-n-chief only one of the Naudet brothers. The other bother is probably too sick to his stomach.

Even the plane parts don't match up with New York State Museum's 9/11 Exhibit.

New York State Museum's 9/11 Exhibit
Bright colors and details


Smithsonian muted colorless fraud


So what did Kerry Hunt manage to squeak through at the very last few moments between the tears and debunked telephone calls theory which magically has gone untraced by the FBI via  the routing centers. She managed to talk about the rumbling event BEFORE WTC broke apart midair which also managed to spread the body part of fire fighters across lower Manhattan which also were found on top of major buildings. All these details were crossed off the list of "Stories" I was so depressed I didn't want to do any more work on 9/11.

The rumbling sound and ground shaking has been hijacked via associating with the WTC collapse event, however it is still an unknown event before the collapse and should be associated with 9/11 seismic spike evidence. Its also evidence of a cover up by redirecting the reports of the rumbling with incorrect associations, a common theme throughout 9/11 offical scientifc community and the Smithsonian has now produced one of the most depraved 9/11 propaganda films to date.

What happened to datasets.org? 2013
Crowdsourcing 9/11 information distribution. 3,390,133,440,492 bytes (3,157 GB) ... 9 March 2013 23:55:28 : NIST FOIA 09-42 - ic911studies.org - Release 37

Molten WTC World Trade Center Sample a Closer Look

World Trade Center 9/11 Sample: A closer look

9/11 Truth: Helicopter Witnesses, Large Dark Tail Section Evidence, Robert Fisch and 'Roll #3 1'

Flight 175 Helicopter Witnesses VIDEO

9/11 Truth: Helicopter Witnesses, Large Dark Tail Section Evidence, Robert Fisch and 'Roll #3 1'
Contains clips from:
9 11 Helicopter Flies at Flight 175 Caroline Dries
September 11th 2001 from Helicopter CBS-Net Dub4 33
September 11th 2001 from Helicopter CBS-Net Dub4 34
9 11 creepy plane 911 Studies NIST FOIA Release 14 CNN NIST
9 11 More Evidence of a Drone Operations, Google Drive Roll
NIST JPEGSnoop 9 11 Drone Image from FOIA Release of 3,160
September 11th 2001 CBS-Net Dub4 35 Second Plane Crash, Live
9 11 NEW Witness to explosions, Flight 11 witness, Flight 17
pumpitout Jeff Hill speaks with 9 11 Witness Pablo Lopez
9 11 Drone circling around World Trade Center every 5:65 minutes
9 11 Flight 175 Still Flying on National News
9 11 WCBS NIST DUB4 WCBS Helicopter Flight 175 South tower 2
9 11 NIST FOIA Release 7 Robert Fisch wtc  Drone attack

Not used
9 11 Jumper photo under 1400% magnification turns into CIA Drone
9 11 Jumper photo under 1400% magnification turns into CIA Drone Version 2
9 11 Jumper photo under 1400% magnification turns into CIA Drone Version 3

Major 9/11 Oddities: Thermite Reaction 9 11, High Tempurature Arson Stud...

SEC destroyed 9/11 related option trading records

I just sent him one last email with photos and chances are close to nil that anything will change with him but the last article is amazing on the large cash increases in M1 right out of the NY Central Bank it seems. The SEC destroyed 9/11 records and 9/11 Commission said "S&P 500 index options couldn’t even be investigated "

I don't know who Carl Bernstein was talking about. It could have been Bin Laden or that other guy.

I am not sure if Iraq could be "a guy".

"Carl Bernstein blows the lid off the 9/11 inside job on April 26, Morning Joe show.

“We went to war against a guy (Bin Laden?) who had absolutely nothing to do with 9/11. It was a total pretext!  It’s inexplicable and there you go to Cheney, there you go to Bush, there you go to the Jewish neo-cons who wanted to remake the world.  Maybe I can say that because I’m Jewish. To bring about a certain result…”


Unusual Option Market Activity and the Terrorist Attacks of September 11, 2001*

Allen M. Poteshman. (it was removed and only a cached copy remains)

http://webcache.googleusercontent.com/search?q=cache:i8vEitRdTREJ:www.milkingtheherd.com/images/Poteshman %2520911%2520Insider%2520Trading%2520Paper.pdf+&cd=1&hl=en&ct=clnk&gl=us
University of Illinois at Urbana‐Champaign

“BUZZY” KRONGARD MANAGED FIRM THAT HANDLED “PUT” OPTIONS

Journal of Business, 2006, vol. 79, no. 4 and jstor,org both
conclude the same bottom line

"A measure of abnormal long put volume was also examined and seen to be at abnormally high levels in the days leading up to the attacks. "

http://www.jstor.org/stable/10.1086/503645

9/11 Insider Trading Revisited September 11th, 2013

My question: Why did the SEC destroy its records on the 9/11 insider trading issue?

LS: What is the official explanation for the staggering increase in USD currency in circulation stated by the Fed?
WB: I don’t believe there is any “official” explanation for the surge in currency in circulation in July/August 2001.
LS: Do you consider it as one possible alternative explanation that covert operations were on their way in the summer of 2001 on the ground in Af/Pak, where cash would rule the place going forward?
The photo, Long Put Options trading and comments by Carl Bernstein and in-actions by Amy Goodman,  should more then do it for you.

Firefighters for 9/11 Truth Version 2 The Non Arson Investigation
http://www.youtube.com/watch? v=TYx38uoVgU8




from "dust" by Paul J. Lioy

"Some new chemicals were mentioned by Dr. Cahill, such as fused iron spheres" this was a off an hand remark by Paul that never got a red flag or was answer or ever explained.

The comment deserved more then this  and the 9/11 families deserve better and  Dr. Cahill knows this.

and NOT reported by Team Woods or any of the government based shill team.

Dr. Wood, Paul J. Lioy and Dr. Cahill is part of the supporting cast of scientists, politicians, yellow journalist and corrupt investigative compatibility who can't look deeper and independently

"dust" by Paul J. Lioy
http://www.scribd.com/doc/80751531/Dust-The-Inside-Story-of-its-Role-in-the-September-11th-Aftermath

Firefighters for 9/11 Truth Version 2 The Non Arson Investigation of 9 1...

Rescue Me! The Un-mentionable building 7 MSM Brainwashing

9/11 Truth Debunking 911myths.com WTC Molten Steel Web Page

9/11 Molten Iron Airborne Evidence, Fighters Fighting Thermite on Buring...

WTC voids, WTC bathtub damaged or undamaged. Flooding issue or not issue...

Reply to - 9/11 Everything is Missing, MSM Fraud by the TON

Reply to - 9/11 Everything is Missing, MSM Fraud by the TON

Honest Opinion, (something one rarely gets these days), Your article although very well researched and written, it only rehashes many of the past theoretical implications, but doesn't place anything new on the table (so to say), it might rightfully belong in, possibly the "ABOVETOPSECRET", "Loose Change",or "Lets Roll Forums. I would imagine that I possibly expect too much from myself as well as other people. In review of the website "Before It's News" I read it in anticipate of information that is 'Breaking News" or Ground Breaking Information, not to be seen in the MSM or at least not for some time, or until it can be 'Sanitized" by the MSM for Public Consumption.

As for 9/11, I have my own theory, I came to the realization even before seeing Judy Wood's information and her assessment quite simply and undeniably confirmed what I had obviously already suspected.

Joe Casaliggi is correct from all of the visual evidence presented. There is obvious evidence of Molecular Disassociation. Not in ALL of the material, but enough to validate my theory.

Although Judy Wood's assessment contains most of the facts, she doesn't directly imply what I have determined to be the cause of the Twin Towers collapse. She dances all around the obvious, yet NEVER ONCE directly bringing up the possibility of a different but well connected causative factor that would create ALL of the conditions found ( and not found) during and after the Tower's collapse.

It's my belief Judy Wood' is working in concert with the CIA, Why do I say this?

She formulates a Theory of a Space Based ( Star Wars) Weapons Platform using an advanced Energy Beam. Although slightly Possible, NOT very probable. Why? The energy requirements of such a Weapons System. to exact the degree of damage incurred would be HUGE, ( generally more than the allowable weight limitations placed on earth launched space vehicles) and the amount of precision required to focus a beam from an extreme altitude, without effecting the surroundings is improbable, most of the BEAM type weapons effect a majority of material in their path ( even if the Energy Beam's effective process was that of Resonance, since people on the ground in the immediate vicinity of the Tower's were not immediately adversely affected, yet a variety of different materials were indeed affected, people would have been immediately affected), .

Unless Judy Wood knows more than she'd telling ( which could very well be the case) her website and her interviews have people , more or less, "Chasing Their Tails" .

Thermite was very highly possibly used to dissect the buildings internal core column structure at key points prior to it's final collapse and facilitate the entrance of and anticipated action of an ultimately far more destructive device. Thermite is a pyrotechnic and not classed as an explosive. It possesses very, very, extremely little or almost no "Brisance", which is an absolute requirement of any high order explosive to have a destructive capability.

I'm not just confident, but convinced, there is ONE and only ONE type of device which could cause the Towers to collapse exactly as they did, and also create each and everyone of the "so called" anomalies ( free-fall collapse, molecular disassociation, bending and warping of massive core columns, line of sight holes in surrounding buildings, vehicle fires which target metal but leave plastic and paper unharmed, super extreme temperatures, evidence of vaporization found in large steel beams, missing mass and/or missing common office items etc,etc...) which occurred during the event.

Although no one else can conceive of the extreme possibility, I do know what could have caused the damage and the resulting collapse of the buildings.

Most people are not even remotely intelligent enough to discuss, much less take into consideration what I have theorized based on the resulting evidence.

Presentation of My Theory did allow me to do an Ultra-fast census in the United States of "Village Idiots".. I can easily and repidly differentiate intelligent from ignorant simply by attempting to explain or mentioning my proposed explanation of the collapse of the World Trade Center Towers.

I don't have cold, hard evidence you can hold in your hands, take to a lab and place under a microscope to examine, but I do have independently acquired, ( that I acquired myself) Photographic evidence that correlates to video evidence (probably the only piece of non tampered, unaltered 9/11 video footage that exist ) taken on the day of Sept. 11th, 2001. And I also have another eye witness who can testify to the validity of the photographs I have taken.

People simply cannot conceive of concepts they do not understand, so they tend to dismiss or deny that which they fail to understand.

Almost ALL (with the exception of one) video footage of 9/11 has been selectively edited, altered, and / or composited. ALL ( every single one ) of the clips which depict aircraft impacts into the Tower's has been selectively and composited.

I spent 8 years in Naval Aviation, actually preforming maintenance, installations, replacement and repairs on aircraft. It is Physically Impossible for the thin, hollow aluminum alloy wing tips (outer five feet ) of ANY aircraft to penetrate ( cutting through ) thick concrete and steel beams at the Maximum (slow) speeds that possibly could be attained by any of the suspect aircraft stated. PERIOD

So the information below is, without a doubt correct. From the Journal of Engineering Mechanics:
"Impact of the Boeing 767 Aircraft into the World Trade Center"
J. Engrg. Mech., Volume 131, Issue 10, pp. 1066-1072 (October 2005)
Here's the abstract from ASCE Research Library

"A numerical simulation of the aircraft impact into the exterior columns of the World Trade Center (WTC) was done using LS-DYNA. For simplification, the fuselage was modeled as a thin-walled cylinder, the wings were modeled as box beams with a fuel pocket, and the engines were represented as rigid cylinders. The exterior columns of the WTC were represented as box beams. Actual masses, material properties and dimensions of the Boeing 767 aircraft and the exterior columns of the WTC were used in this analysis. It was found that about 46% of the initial kinetic energy of the aircraft was used to damage columns. The minimum impact velocity of the aircraft to just penetrate the exterior columns would be 130 m/s. [ i.e. 7800 miles per hour]. It was also found that a Boeing 767 traveling at top speed would not penetrate exterior columns of the WTC if the columns were thicker than 20 mm. [20mm = less than one inch thick. The columns were known to be 4 inches thick.] "

_________________________________________________

( Back when I was a young fellow, a young, young fellow, I began to study Electronics. At age 10 I built my first major at home project, a five tube, class A-B Broadcast Band Transmitter, the RF output tube, was a 12AT7, and I re-biased it, coupling both triode sections to obtain the most of it's full wattage output rating. Vacuum Tubes were extremely common in 1967, but transistors ( although having been around for about 12 years prior ) were not as common, as they were just making their appearance in common commercial electronics applications. Information concerning Vacuum Tubes was in vast abundance as were the tubes themselves and the associated components, it would take another 5 years before enough information was available (in our small, remote town ) before I could to come to fully understand the Transistor, which was even then in the process of being "Miniaturized" toward a smaller size than . it's former, original configuration.Then came the Transistor Array, then came "Field Effect" and MOSFET Transistors and then the Linear Integrated Circuit and now we have complex "Micro-Miniaturized Circuitry and the Micro-Processor. and I even have progressed since then as I now build computers systems, I hold an FCC General Class Radio Operators License, I have repaired a large variety of electronic, electric and electro-mechnical equipment. I have also been ASE certified as a Master Automotive Technician, and presently work as a Machine Shop Qualified, Journeyman Machinist)

So it's not without many years of practical, applied experience and knowledge that I suggest any contemplative possible explanations. Thank You