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this has got a white painted front . with demonstrator seating and its a memory bus for my best friend gemma who died rip xx
The kit and its assembly:
This whif is the result of many ideas and occasions. First of all, I had a leftover six-blade propeller from a Hasegawa J7W Shinden in stock. Then I recently had an eye on kits of late Japanese high altitude fighters with turbosuperchargers, like the Ki-91-II or the Ki-106. These are available from RS Models, but rare and rather costly. And I wondered how a P-47 might look like without its deep belly? All this was finally thrown into a big idea stew, and the Ki-104 is the home-made hardware result!
As a side note: the Ki-104 was a real IJA project, AFAIK based/related to the Tachikawa Ki-94-I twin-boom/push-pull high altitude fighter, a re-worked, more conventional design. Information is sparese and it never reached any hardware stage and remained a paper project as the Rikugun Kogiken Ki-104; I just "revived" the number for my whif, but maybe the real Ki-104 could have looked like it... ;-)
The kit is a bashing of various parts and pieces:
- Fuselage and wing roots from an Academy P-47-25
- Wings from an Ark Model Supermarine Attacker (ex Novo)
- Tail fin is a modified part of a Matchbox Ju 188 stabilizer
- The stabilizers are outer sections from a Matchbox Douglas F3D Skyknight
- Cowling comes from an ART Model Grumman F8F Bearcat, the engine was scratched
- Propeller from a Hasegawa J7W Shinden
- Main wheels from a Matchbox F6F Hellcat
My choice fell onto the Academy Thunderbolt because it has engraved panel lines, offers the bubble canopy as well as good fit and detail. The belly duct had simply been sliced off, and the opening later faired over with styrene sheet and putty.
The Bearcat cowling was chosen because it had very good fitting width in order to match with the P-47 fuselage, and it turned out to be a very good choice - even though I had to add a dorsal connection, a simple styrene wedge, to create a good profile.
Inside, the engine consists of a reversed Hobby Boss F6F engine, with a fan dummy that covers any view on non-existent interior details... A styrene tube was added, into which a metal axis can be inserted. The latter holds the propeller, so that it can spin with little hindrance.
The Attacker wings were chosen because of their "modern" laminar profile - the Novo kit is horrible, but acceptable for donations. And the risen panel lines and rivets should later do great work during the weathering process... OOB, the Attacker wings had too little span for the big P-47, so I decided to mount the Thunderbolt's OOB wings and cut them at a suitable point: maybe 0.5", just where the large wheel fairings for the main landing gear ends.
The intersection with the Attacker wings is almost perfect in depth and width, relatively little putty work was necessary. I just had to cut out new landing gear well parts.
With the new wing shape, the tail surfaces had to be changed accordingly, with parts from a Matchbox Skyknight and a highly modified piece from a Matchbox Ju 188 stabilizer.
The OOB cockpit and landing gear was retained, I just replaced the main wheels with slightly more delicate alternatives from a Matchbox F6F Hellcat.
Once the basic bodywork was done I added the exhaust arrangement under the fuselage; the outlets are oil cooler parts from a Fw 190A, the air scoop once belonged to a Martin Marauder and the long ducts are actually HO scale roof rails. The oil cooler under the engine comes from a Hobby Boss La-7.
Pretty wild mix, but it works surprisingly well!
Michael J. Kappel Mini Photo Business Cards with QR Code
My Referral Code for 10% discount off your first order
Code Talkers Statue . 16 November 2014
Phoenix Arizona USA, N33.48057 W112.07345
www.copperarea.com/pages/exploring-the-world-of-the-navaj...
cronkitezine.asu.edu/stateofchange/connections/connection...
allisence.wordpress.com/2011/08/14/code-talker-tribute/
Photostream
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Included in SET "Monuments Pt 3"
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Camera: Canon PowerShot SX60 HS
Processed with PSE13 / RPS / ZB / DPP
Monitor EIZO CG223W
RAW Conversion, Cropped and compressed JPEG
Data: A.D.O.F. available on request
....... Gre
©2014 SLT/W7MC
WBEI Studios, Persius New Mexico USA
Price: US $75
Orange and black crape salwar suit worked with sequins, stones and neem jari. Price includes stitching cost.
Code [Norway] @ Brutal Assault XIII www.codeblackmetal.co.uk
Open Air Festival Of Extreme Art
(Vojenská pevnost Josefov, Jaroměř, Czech Republic)
August 14-16, 2008
Santa Rosa Fire's Engine 1 responds to a call on the West Side of town. I won't say who or what, but they almost needed a response to themselves, as a driver almost hit them in the intersection going the other way!
©FranksRails Photography, LLC.
Using Neo Reader which is free on the iPhone.
1. Scan the QR Code
2. Accept the image taken
3. Neo Reader automatically delivers an action. In this case to open my Flickr stream.
The Oak Ridge Leadership Computing Facility hosted Women in Computing's "Introduce Your Daughter to Code" for the second time on June 16, giving daughters of staff members at ORNL a chance to engage in fun programming activities and code on the Cray XK7 Titan supercomputer. This year, 25 girls ages 10 to 18 participated in the labwide event.
OLCF User Support Specialist Suzanne Parete-Koon kicked off the event with an introduction to parallel computing and Titan before ORNL intern Dasha Herrmannova and ORNL postdoctoral research associate Anne Berres walked the girls through the basics of coding in Python.
Katie Schuman, a Liane Russell Distinguished Early Career Fellow, helped the girls use a program called fractalName to generate colored fractals—repeating patterns that form shapes—based on their names and ages. The fractals were displayed on the visualization wall in the Exploratory Visualization Environment for Research in Science and Technology, or EVEREST. The girls also used Schuman's Birthday Pi code to find their birthdays in the first 100,000 digits of the number pi.
"It was really exciting to see the girls' enthusiasm and curiosity when they were coding," Katie says. "Seeing them already thinking creatively about the code is the most rewarding thing to me."
After they coded on the leadership-class machine, the girls explored the interactive Tiny Titan, which features eight Raspberry Pi processors and provides a visual simulation of a liquid in space. Tiny Titan demonstrates how additional nodes in a compute system can increase the speed of a simulation.
Katie says the feedback WiC continues to receive about the event will inform future coding activities. "Some of the parents have already said the girls wanted to download everything and keep playing with the code when they got home," she says. "There is already a desire for the next phase. We will definitely continue running the same curriculum and possibly expand it in the future."
The following staff members contributed to "Introduce Your Daughter to Code:" Berres, Harken, Herrmannova, Parete-Koon, Schuman, Megan Bradley, Kate Carter, Amy Coen, Katherine Engstrom, Megan Fielden, Shang Gao and Ashley Nguyen.
Image credit: Genevieve Martin/ORNL
These crosswords are available for online solving at solvemall.com/crossword/collection/code-crackers/
The Oak Ridge Leadership Computing Facility hosted Women in Computing's "Introduce Your Daughter to Code" for the second time on June 16, giving daughters of staff members at ORNL a chance to engage in fun programming activities and code on the Cray XK7 Titan supercomputer. This year, 25 girls ages 10 to 18 participated in the labwide event.
OLCF User Support Specialist Suzanne Parete-Koon kicked off the event with an introduction to parallel computing and Titan before ORNL intern Dasha Herrmannova and ORNL postdoctoral research associate Anne Berres walked the girls through the basics of coding in Python.
Katie Schuman, a Liane Russell Distinguished Early Career Fellow, helped the girls use a program called fractalName to generate colored fractals—repeating patterns that form shapes—based on their names and ages. The fractals were displayed on the visualization wall in the Exploratory Visualization Environment for Research in Science and Technology, or EVEREST. The girls also used Schuman's Birthday Pi code to find their birthdays in the first 100,000 digits of the number pi.
"It was really exciting to see the girls' enthusiasm and curiosity when they were coding," Katie says. "Seeing them already thinking creatively about the code is the most rewarding thing to me."
After they coded on the leadership-class machine, the girls explored the interactive Tiny Titan, which features eight Raspberry Pi processors and provides a visual simulation of a liquid in space. Tiny Titan demonstrates how additional nodes in a compute system can increase the speed of a simulation.
Katie says the feedback WiC continues to receive about the event will inform future coding activities. "Some of the parents have already said the girls wanted to download everything and keep playing with the code when they got home," she says. "There is already a desire for the next phase. We will definitely continue running the same curriculum and possibly expand it in the future."
The following staff members contributed to "Introduce Your Daughter to Code:" Berres, Harken, Herrmannova, Parete-Koon, Schuman, Megan Bradley, Kate Carter, Amy Coen, Katherine Engstrom, Megan Fielden, Shang Gao and Ashley Nguyen.