What's new

Chill Bangladesh Thread

Just go to his profile and "ignore" him.

You won't see his posts again.

Easy solution, I'd do the same with the Indian trolls as well.
Lol. A black elf should not wandering about and calling other people trolls.
 
.
@waz

Can you pls ban this troll


No, he can't and he won't.


Welcome to PDF.
Lol. A black elf should not wandering about and calling other people trolls.


If you're so white then why do the actual white skinned folks call you all sorts of racial slurs ?


We get it, it's a little below average down there so you have to come on here to vent.


Try some Chinese pills... Best chase scenario the little bundle of shame shrivels and falls off, no more getting shamed from the missus, If you don't have to it to begin with.
Zionist mfer


Yeah, I'm a Zionist, what will you do about it ? Cry to mama ? 😂😂
 
.
No, he can't and he won't.


Welcome to PDF.



If you're so white then why do the actual white skinned folks call you all sorts of racial slurs ?


We get it, it's a little below average down there so you have to come on here to vent.


Try some Chinese pills... Best chase scenario the little bundle of shame shrivels and falls off, no more getting shamed from the missus, If you don't have to it to begin with.
Well maybe one day your new Jew dad will change you into a white race or at least a light brown until then keep serving the Israelis and Sanghis with surrogates !
Yeah, I'm a Zionist, what will you do about it ? Cry to mama ? 😂😂
After supporting a genocide against Innocents muslim you think should not be accountable and answerable to Allah Almighty
Are you even a Muslim ? I doubt that !
 
Last edited:
.
Just go to his profile and "ignore" him.

You won't see his posts again.

Easy solution, I'd do the same with the Indian trolls as well.
He's the resident troll we keep in our section just for fun. Don't worry, this one can't bite and can just bark.

throw him a bone or two to chew on @DalalErMaNodi. This forum has been boring lately.
remember to use only 23% of your posting power
1623871972686.png
 
Last edited:
. . .
He's the resident troll we keep in our section just for fun. Don't worry, this one can't bite and can just bark.

throw him a bone or two to chew on @DalalErMaNodi. This forum has been boring lately.
remember to use only 23% of your posting power
View attachment 754052
lol for sometime no one throwing a bone to our beloved freed pets thats why I thought it would be a good idea !
welcome back
@DalalErMaNodi showing off his medals (number of times he's been banned for confronting the trolls)
View attachment 754078
Yup everyone gets a medal by dealing with black traitors for example like this pilot got one !
images - 2021-06-17T053114.607.jpeg
 
Last edited:
. . .
@bluesky and @Paul2 brothers take a look....this is a rebuttal article by Jiro Horikoshi himself when Americans were claiming that the Zero was a copy of German, UK or US designs. Great vintage aircraft design tidbits.
======================================================


I Designed the Zeke
November 1950 Air Trails
November 1950 Air Trails
November 1950 Air Trails Cover - Airplanes and Rockets

Table of Contents

These pages from vintage modeling magazines like Flying Aces, Air Trails, American Modeler, American Aircraft Modeler, Young Men, Flying Models, Model Airplane News, R/C Modeler, captured the era. All copyrights acknowledged.
Amazingly, Jiro Horikoshi himself, the actual designer of the famed Mitsubishi 00 'Zeke' fighter, wrote this article in the November 1950 issue of Air Trails magazine in response to an article that was published in the April 1949 issue titled, "The Great 'Zeke' Mystery." A little on his background and a lot on the airplane's background is presented in this extensive story. A lot of lessons-learned improvements were integrated into the design. World War II aircraft historians will surely be interested in this first-hand account that was written very shortly after then end of the war.


I Designed the Zeke

By Jiro Horikoshi
I Designed the Zeke, November 1950 Air Trails - Airplanes and Rockets
Here is the full, true account presented for the first time on the origin and development of World War II's most controversial aircraft. Designer Horikoshi who masterminded the Mitsubishi 00 lifts the veil on the Great Zeke Mystery

It might seem better if the man who designed the best-known fighter plane of the losing side kept his peace. However, by the mysterious channels through which back copies of publications travel, the April 1949 issue of Air Trails came into my possession. The American friend who gave it to me pointed out David A. Anderton's article, "The Great 'Zeke' Mystery," which indicated that the "Zero" fighter was progressively "borrowed" from a number of other contemporary aircraft.

As the designer of the Zero, I would like to be permitted, for the benefit of history, to set the record straight. The Zero fighter, as the world got to know it. was no more copy than any other fighter used in the world today. All single-engined all-metal low-wing monoplanes are to some extent progressive "copies" of the original Junkers "Bleichsesel," the father of all these machines. There is a certain pool of common information from which all engineers. draw. There is a certain reciprocal borrowing of detail ideas without permission during wartime, and by cross-licensing in times 'of peace.

There have been few scientific studies of the Zero as an airplane published anywhere. In Japan, it was naturally praised; overseas, it was frequently subjected to certain ridicule, to dogma and to prejudice. I am grateful to Mr. Anderton for his prompt discounting of many of these false rumors and half-true reports. However, I can best prove the originality of the design of the Zero by relating its history and its background. Like people, airplanes have ancestors. They get to look as they do partly by heredity and partly because of the functions which they have to perform. This is, in essence, the story of Zeke, as seen through the informed albeit maybe slightly prejudiced eyes of its designer.

Taking off on a battle mission is a Zeke - Airplanes and Rockets

Taking off on a battle mission is a Zeke. This is a Jap military photo from the personal files of author Horikoshi, who was a top Mitsubishi designer.

Mr. Anderton, in his article, intimates that the world first saw Zeke on that day all Japanese would like the world to forget, Pearl Harbor Day. Had Mr. Anderton been given access to proper military information which I am sure must have been at the disposal of leading American military and naval intelligence personnel, he would have known that the Zero had been in action on the mainland of China for about a year and a half before the Pearl Harbor strike. In July of 1940, it began to replace the leading Army type, the Type 96-4 carrier fighter which had been a standard machine since 1936. Since the air phase of the operation in China was chiefly a Navy show, the Mitsubishi 96-4 (A5M4) had, up to then, been the leading single-place job.

Here let me explain, again for the record, how the .Japanese numbering system of identification worked. The 96 denotes the year that the plane was put into regular service, the 2596th year of the old Japanese era, 1936 AD. The figure 4 indicates the fourth modification or revision. The symbol A5 indicates that it is the fifth fighter prototype built by Mitsubishi, or M. This system was adopted by the Japanese in 1936, but was applied to planes built before that period also in reference files. The Army and Navy, which seldom got together on anything important, used somewhat different designations for everything but the year of service.

As the war in China moved further inland, the Navy felt that they needed a fighter with a much longer range, in order to escort the bombers to and from the targets. It was this need for combination of speed, range and maneuverability that begat the Zeke.

Mr. Anderton's knowledge of the early history of Japanese aviation is remarkably sound. As he stated, Japanese Naval aviation is chiefly British in its ancestry, while the Army aviation drew heavily from French and German sources. These were the easy old days, after I received my degree in aeronautics from the Imperial University in Tokyo and entered the Nagoya Aircraft Works of Mitsubishi Heavy Industries, Ltd., as a design calculator - or subordinate structures engineer, as one would be called in the United States. This was the period during which Japanese industry was trying to catch up with the more advanced technical status of certain Western powers by hiring experts and buying ideas and experience.

By the time I entered Mitsubishi, at the age of 23, the noted American designer, Mr. Smith, and his party were no longer with the company. There were no Americans with the firm at the time. Prof. Baumann, the noted German designer, and Mr. Schade and Mr. Keil, both from Junkers, were with the company. The noted French designer, M. Vernisse, was employed in the outfit, as was Mr. Petty from Blackburn Aircraft Co. in England, and his assistants, Mr. Bolton and Mr. Wilkinson. These men stayed for contracts ranging from one to three years during the formative period between 1926 and 1931. They designed aircraft, taught other engineers the techniques of design. Unfortunately, I was in the lower echelon, my task was supervising stress calculations, and I had no opportunity to contact these foreign experts directly.

Captured Zeke was similar to one flown across U. S. bearing Jap markings - Airplanes and Rockets
Captured Zeke was similar to one flown across U. S. bearing Jap markings. Great consternation resulted when plane spotters let it go by unnoticed.

This importation of foreign experts was universally practiced during this period when Japan's infant aviation industry was gathering momentum. Nakajima, Kawasaki, Aichi, Tachikawa - all of these had experts from abroad on their payrolls. Their influence during this period can be seen directly in the airplanes that were acquired by the Army and Navy. During this period, the Japanese companies went heavily into the purchase of patent licenses of all kinds. For example, the Handley-Page-Lachman leading edge wing slot was acquired jointly by Mitsubishi and Tachikawa for a hundred thousand pounds. Licenses for accessories, engines, instruments and the like were purchased wholesale, to permit the infant industry to get into a competitive position.

I was sent abroad to study during this period, and from June to December,1929, I traveled in Europe, England, France, Germany and the Netherlands, visiting airplane factories. I stayed with the Junkers company for three months, studying their procedure in design. In December 1929 I embarked for the United States where I visited many plants. I stayed several months at the Curtiss Company's plant in Buffalo, where I acted as inspector for the P-6 pursuits that had been purchased by Mitsubishi.

When I got home in the early fall of 1930, there was a new movement in the air. The Japanese designers had a feeling that they wanted to try their own ideas in designing. By 1932, the Japanese government was about ready to listen. The Japanese Navy was particularly anxious to start a new line of aircraft, built entirely by Japanese. They ordered three important types under this program, a carrier-fighter, a carrier torpedo-bomber and a reconnaissance seaplane. These were designated as the 7-Shi Class since they were ordered during the seventh year of the Showa reign or era, 1932. Nakajima and Mitsubishi got orders for the carrier jobs, and I was appointed chief designer of the carrier fighter, chiefly on the basis of my experience and knowledge of fighters gained by contact with the P-6.

By this time, the trend was definitely to monoplanes in fighters. By modern standards, the 7-Shi fighter was a clumsy, angular monoplane, but it was in the contemporary line of design. The wings were thick, full-cantilever structure, fabric covered, using the popular elliptical planform that was the current leader.

The fuselage was dural semi-monocoque structure. The prototype had a three-strut landing gear. The second machine had a full-trousered leg. The tail was dural structure, fabric covered.

The machine was conventional for its time, many of its characteristics having been dictated by the rigid demands for visibility and performance laid down by the Navy.

Cloud of Caudes dung period when Japanese designers stuck to the fixed landing gear - Airplanes and Rockets
Cloud of "Claudes" dung period when Japanese designers stuck to the fixed landing gear; they felt the increased weight for retracting gear wasn't worth tight speed gain.

None of the machines presented for the 7-Shi competition met the Navy's requirements. Nakajima had presented a carrier version of the old Army 91-type fighter, evolved by the French designer Marie. I don't know what happened to the other machines in the 7-Shi competition. Ours didn't fare too well. The original machine shed a stabilizer during a power dive test. Luckily, the pilot bailed out without any trouble. The second airplane went into a flat spin during an aerobatic test, the ship went in from a double roll. The pilot, Lt. Okamura, got out all right. Despite his bad experience with my first original design, Lt. Okamura stood by me, giving me ideas and encouragement for my further work.

By 1934, the Navy eased up on size and range demands for their carrier fighters and dive bombers. By this time, I had a lot more experience and a few more original ideas. When the call came for the 9-Shi fighter, I conceived long, slim lines for the new ship instead of the thick, stubby ones.

Most of the leading Navy pilots had most of their experience on the old biplane fighters. They conceded the need for speed and climb, but their tactical concept ideas still called for turning combat, the old dogfighting idea. To get the combination of speed and maneuverability into the airplane I desired, the answer was a light airplane.

We retained the fixed landing gear in this design, since the gear constituted only 10 percent of the overall drag. A retractable gear would have raised the top speed from 400 to 410-15 km per hour. We did not figure that the increased weight and mechanical complexity of the retraction mechanism was worth the investment.

The 9-Shi incorporated the use of tension-field spar webs, an idea that was brought to Japan from Rohrbach in Germany by Capt. Wad a who later became Vice Admiral and Chief of the Navy's Air Headquarters. This system permitted great lightening of the wing structure, without sacrifice in strength.
The 8-Shi was the first plane in Japan to use flush riveting and was probably the second design in the world to do so. The first, I believe, was Heinkel He-70.

The first 9-Shi was test-flown at Kagamigahara Field in February 1935. It had a top speed. of 280 mph, faster than the old 7-Shi and the Type 95 carrier fighter it was built to replace. The fabric-covered Nakajima machines, built for the competition, were sold to the local newspaper, "Asahi," to be used as liaison planes.

The first 9-Shi was an inverted gull-wing job, built without flaps. The ship developed a pitching motion at high angles of attack, due to the turbulent flow at the V-shaped concave part on the upper surface of the wing. Thus, despite the better visibility and the weight saving afforded by this configuration, the second 9-Shi had a straight center section.

The 9-Shi was undoubtedly, as the Americans call it, a "hot ship." A shallow approach was required, and the ship had a decided ballooning tendency on touchdown. It was thoroughly tested under the supervision of Lt. Comm. Yoshito Kobayashi, chief pilot of the flight test section. Its virtues were noted, particularly its speed. Its faults were analyzed, and corrective measures taken. Then the ship was used for static testing.

The second 9-Shi was fitted with a split flap and a larger engine, a direct-drive type, since the first machine had developed some trouble with the reduction gear system. This machine suited the rigid requirements of the Navy. On the basis of its performance, the Navy tried to cancel an order for French Dewoitine D-510's. They finally had to take two, which were kept, chiefly for the study of the motor cannon. The noted pilot Marcel Doret flew the planes on demonstration for us. We flew comparative tests against the 9-Shi at Kasumigaura Navy Field, and the Mitsubishi machine proved superior on almost every point of performance.

It is interesting to note that as early as 1927, Mr. Noda, then chief of the wind tunnel section and later assistant manager of Mitsubishi's Nagoya Works, filed patents on a simple split flap. Because the prophet is often without honor in his own country, Mr. Noda's flap was buried under the avalanche of foreign patents that were being purchased. It was several years before the idea was picked up and put to actual use.

ype 96-2b Deck Fighter (A5M2b) known to us as Claude. - Airplanes and Rockets
Type 96-2b Deck Fighter (A5M2b) known to us as "Claude." The "96" indicates 2596th year of old Jap era (1936) when plane went into service.

The gap between the final approval of the 9-Shi airframe and its final adoption as a military machine stemmed from our inability to produce a suitable powerplant. A number of radial engines, varying from 600 to 800 hp were considered by the Navy. Finally, the smallest unit, the Nakajima Kotobuki 2-1 was adopted because it was the most reliable unit in production. The 9-Shi machine went into service as the Type 96-1 Carrier F'iahter (A5M1).

For the time being, the production machine's performance was lower than the prototype's, but it was put into production for use in the Sino-Japanese conflict which began in July of 1937. There were over a thousand of these fighters built; 800 by Mitsubishi and two hundred odd by the Sasebo Naval Arsenal and the Kyushu Airplane Company. Its power was progressively stepped up as better engines became available. What went into actual mass production was a Type 96-4, powered with a 700 hp Kotobuki 41 engine.

During the time when the 96 was the leading Japanese fighter, we had the opportunity of running comparative tests against the Seversky P-35. We purchased ten of these for purposes of test and study, and found that the machines were heavy, unmaneuverable and did not compare with the performance of the Type 96 in virtually all major points. Actual combat against the Gloster Gladiator, the Curtiss Model P-75 and the Russian I-15 and I-16 indicated that for most purposes, we had the superior machine.

However, the Navy was not deluded into believing that these tests made us the tops in fighter design; it stood to reason that no country was going to export its best aircraft. For that reason, we were encouraged to improve our design and keep step with the world.

The Navy determined that the next machine, which was to be faster and have reasonably proportionate performance, must retain greater maneuverability than opposing aircraft. In brief, the Navy air strategists wanted speed and climb, but they still demanded a tight turning circle.

These were exacting demands; the sole solution appeared to be in building the lightest possible airframe and keeping the wing-loading as low as possible. We were forced, therefore, to eliminate consideration of such things as fire protection, self-sealing tanks, armor plate and anything else that was weight consuming. The design specifications laid down by Naval Air Command appeared impossible.

We knew that Japan was a nation of limited resources. Therefore, it was important that we build what airplanes we did produce as superior machines. I had laid down three criteria for the design of a fighter; performance, producibility and ease of service. For a small country, performance was the major object - even at the cost of the other two or if need be, the safety of the crews.

It was against this background of virtually impossible demands that we began work on the 12-Shi prototype in 1937. We estimated that it would take three years to produce the plane that Supreme Command wanted. Yet as the war retreated further inland in China, the range of the old 96 was proving inadequate. Even with drop tanks, it was getting more difficult as the Chinese moved the scene of battle further from the coast.

The first plane to be termed a Zero model was the 12-Shi - Airplanes and Rockets
Type 00 deck fighter. The first plane to be termed a Zero model was the 12-Shi land-based bomber designated "Betty" by the American forces.

The earliest designs in the 12-Shi project were built around the 875 hp 14-cylinder Mitsubishi Zue-sei engine, swinging a Sumitomo two-position propeller, a Hamilton-Standard design. Later, the Nakajima Sakae, a slightly larger and more powerful engine became available, and was incorporated into the third machine. The bulk of the production Zeros carried this engine. Later, when most of the Zeros were land based, the Mitsubishi Kinsei engine was used.

To achieve the performance demanded by the Navy, weight conservation was the prime order in the 12-Shi design. We built the wing in one piece, thus eliminating heavy center-section fittings. We used the smallest possible fittings to join the wing to the fuselage. The flanges of the main wing spars were made of a pew type aluminum alloy called ESD. The fuselage was built in two sections for convenience in storing and for easier transport on trains. The entire structural philosophy of the 12-Shi design was aimed at lightening the structure.

The plane itself was built for minimum air resistance, good control and stability. The wing area was determined on the basis of keeping the wing loading below 21.5 lbs, per square foot, in order to satisfy the take-off, climb and turn requirements.

The 12-Shi model used a new wing curve that was specially created for it. It has the same thickness ratio as the B-9, which had the best polar curve at the time and a similar camber line as the NACA 23012 series with a maximum camber of two percent. The new airfoil was designated as the Mitsubishi 118. Its polar curve was about the same as the B-9, but it had only about half the movement of the center of pressure. This same wing curve was used in the Type 1 land-based bomber, known in the U. S. as Betty.

To prevent tip stall the wing was given a 2 degree washout angle. The tail surfaces of the Zeke were designed to give maximum longitudinal and directional stability. The original planforms were laid out to match that of the wing. This system used a removable tailcone, which, we believed, would be useful for structural maintenance. This system was used in the 7-Shi series fighters. A later experimental model used a flat-sided fuselage, fairing into the rudder. Most of the Zeke series used the tailcone configuration.

The vertical stabilizer and rudder on this first configuration was set above the center line and well forward of the end of the fuselage. This plane had fine spinning characteristics. Toward the end of the Zeke run, the flat-sided fuselage was used for the sake of producibility, and was also used on the later types that I designed, the Raiden and Reppu.

The effect of our general effort toward aerodynamic refinement showed up well in our competition with other fighters which emerged later in the war. In comparative runs with the Army fighter "Hayabusa" (Oscar) and "Shoki" (Tojo), our design showed itself to be a prime design despite certain mechanical advantages enjoyed by the newer ones.

For example, the Oscar, with its more powerful engine was equal in speed and climb and was a less maneuverable machine. Its gross weight and useful load was the same.

In its general structural features, the Zero and the model 96 were quite similar. Aside from the obvious use of the retractable landing gear and other improvements previously mentioned, the major change was the extensive use of the ESD high-strength aluminum alloy which was I developed by the Somitomo Co. This alloy is rich in zinc and chrome, and was generally similar to other high-strength alloys. Sumitomo pioneered this field and their product had 30-40 per cent greater tensile strength and 70-80 per cent higher yield point than the alloys previously used.

This alloy, however, had definite limitations; it has a tendency to develop cracks when rolled or extruded. Heavy extrusions had to be clad heavily with pure aluminum, and proved reliable only when these were furnished by the original supplier, and were usable without bending or drawing. This limited the efficient use of the alloy to relatively small aircraft and in such applications as main spar flanges. I used the alloy only for this portion of the main beams, but they did effect a considerable weight saving.

This philosophy of lightness in structure which characterized the 12-Shi or Zero was basic in its nature; I we knew that we were going to have certain problems at the outset, and we were willing to take those chances in order to achieve the result we wanted.

Hamp designation was given this Mitsubishi - Airplanes and Rockets
"Hamp" designation was given this Mitsubishi. Americans had great difficulty understanding Jap method of numbering planes all during war.

The first Zero was flown by Navy test pilots at Kagamigahara Field in July, 1939, and was accepted by the Navy after 119 hours had been put in on the prototype by the company's personnel and 43 by the Navy. The second machine was accepted in September 1939, and the prototype was used for static testing.

There was no great pressure put on the Mitsubishi Company to produce the 12-Shi model until early in 1940, since the old 96 was held adequate for use in the Sino-Japanese operation. As a matter of fact, the first machine to be termed a Zero model was our 12-Shi land-based bomber (designated as Betty by the Americans). Performance tests were held with a number of powerplants. There was a general beefing up of the airplane, especially in the power section, and minor changes were made in the control system to augment maneuverability.

During the trial period" we lost two experimental aircraft. Out of these accidents, we learned that the ESD spars had certain structural limits, and the wing structure, particularly the spar caps, were redesigned. One of the victims was 1st Lt. Shimokawa, who was investigating flutter during a. dive. Again there were structural revisions in the wing.

The Zero went into service in China, as previously stated, in mid-1940. However, there were progressive improvements in the design. Actually, no Zeros were produced after August of 1945, the end of the war, although my later designs, the Raiden and Reppu, were then being readied for production.

The Zeke, as the war went on, was altered. Armament and power were varied, armor and self-sealing tanks were added. On one modification the wings were clipped to improve the rate-of-roll, general structural concessions were made to permit better diving speeds. However, we suffered to a great degree from an ultra-conservative topside, who were slow to put into effective practice such changes.

In summing up the defense of the design originality of the Zero, I will give credit where credit is due. As I stated previously, and as virtually all competent airplane designers will hold with me, the business of creating any new airplane is a process of adapting the existing art and science to the problem at hand.

For example, I will state that the undercarriage retraction design on the Zero was inspired by the Vought 143, and that the system for fastening the engine cowl and the method of mounting the engine came from other foreign planes. Any designer who fails, out of vanity, to adapt the best techniques available to him, fails at his job, All engineers are influenced by their teachers, by their experience and by the constant stream of scientific information that is placed at their disposal.

In the case of accessories, many of these were built under license from abroad; wheels were manufactured by Okomato Engineering Company under license from Bendix and Palmer, instruments were built by the Tokyo Instrument Company under license, or later in the war, by direct copy from Sperry, Pioneer and Kollsman. Sumitomo built hydromatic propellers under a license from Hamilton Standard, as well as the German VDM propeller. The Nihon Musical Instrument Co. built the Junkers and Schwarz propellers, while the Kogusi Aircraft Company built the French Ratier propeller. We built 20-mm cannon licensed by Oerlikon of Switzerland and copies of the 13-mm (.50 cal.) Browning.

In the matter of communications radio, our material was adequate, but not in the class of the U. S. equipment. Our radar never reached full-scale use, although we had excellent research along these lines. Our powerplant development was consistently behind the U. S. and England. For example, we never developed a successful turbo-supercharger, despite the obvious need for a high-altitude powerplant.

We did do a lot of early work in water-methanol injection, but this was an attempt in the direction of improving power output with 91 octane fuel. It was no match for water with 100 octane.

Probably the major contribution of the Japanese during the war to the field of aviation was the ESD prime material, and the production technique developed for its proper use.

I can claim, in the study of the Zero, its ancestors and descendants, that it was original to the same degree as other planes are, and that while it contains certain special features that were all its own, it serves as a prime example of a special design created to suit an unusual set of circumstances.


Posted January 16, 2016
 
.
I can claim, in the study of the Zero, its ancestors and descendants, that it was original to the same degree as other planes are, and that while it contains certain special features that were all its own, it serves as a prime example of a special design created to suit an unusual set of circumstances.
Not only Zero fighters, all mechanical and electrical technology machines, tools, and equipment Japan have been manufacturing long before and after the 2nd WW was all the best quality in design and were better in performance comparing to their rival products in Europe or America. Long ago, I read one old news (about 100 years old) whereby the USA was complaining about Japan stabbing its back by taking away the market share of consumer products in Latin American countries.

Japan excelled in almost every field. It is because of its people's nature of perseverance and the habit of being meticulous. Japan developed its industrial technologies and started producing industrial and consumer goods after Meji Restoration in the 1860s. It was certainly not like today. But, the world was not also like what it is today.

Bangladesh should take a lesson from Japan's experience by elaborately studying the history of Japanese industrial progress after the 1860s.

Rome was not built in a day. Japan was also not built in a single day. However, some of our BD people think BD will be built by 2041. All those thick-headed politicians and political cronies!!!
 
.
Not only Zero fighters, all mechanical and electrical technology machines, tools, and equipment Japan have been manufacturing long before and after the 2nd WW was all the best quality in design and were better in performance comparing to their rival products in Europe or America. Long ago, I read one old news (about 100 years old) whereby the USA was complaining about Japan stabbing its back by taking away the market share of consumer products in Latin American countries.

Japan excelled in almost every field. It is because of its people's nature of perseverance and the habit of being meticulous. Japan developed its industrial technologies and started producing industrial and consumer goods after Meji Restoration in the 1860s. It was certainly not like today. But, the world was not also like what it is today.

Bangladesh should take a lesson from Japan's experience by elaborately studying the history of Japanese industrial progress after the 1860s.

Rome was not built in a day. Japan was also not built in a single day. However, some of our BD people think BD will be built by 2041. All those thick-headed politicians and political cronies!!!

True lol , by the time BD becomes developed I'm gonna be like 90 years old lol
 
.
True lol , by the time BD becomes developed I'm gonna be like 90 years old lol
If you are 25 years old now, another 65 years to become 90 years old. I do not expect BD can develop at that point. It is now an underdeveloped or Least Developed country. The next phase, the "Developing" stage takes a very long time, and for many countries, this stage does not end at all.

BD is behind in industrializing and it cannot design and manufacture mechanical/ electrical machines. Copy-pasting of many easy technology products is a good sign of progress. However, BD cannot even do it.

So, when do you expect BD will start manufacturing machines, engines, motors, parts, and components in a commercial scale? Is it in the next 65 years? Hopefully, but it will still remain in the developing stage.

Note that China is still in the economic developing stage although it can build its power plants (also nuclear) and all other plants, mills, and factories with its domestic technology and manpower.

How about our Golden Bangladesh? Can it build by itself its power stations, fertilizer/ chemical plants, or steel plants in another 65 years? I doubt it. At least, I do not find any symptom that it can do such things.
 
Last edited:
.
If you are 25 years old now, another 65 years to become 90 years old. I do not expect BD can develop at that point. It is now an underdeveloped or Least Developed country. The next phase, the "Developing" stage takes a very long time and for many countries, this stage does not end at all.

BD is behind in industrializing and it cannot design and manufacture mechanical/ electrical machines. Copy-pasting of many easy technology products is a good sign of progress. However, BD cannot even do it.

So, when do you expect BD will start manufacturing machines, engines, motors, parts, and components in commercial scale? Is it in the next 65 years? Hopefully, but it will still remain in the developing stage.

Note that China is still in the economic developing stage although it can build its power plants (also nuclear) and all other plants, mills, and factories with its domestic technology and manpower.

How about our Golden Bangladesh? Can it build by itself its power stations, fertilizer/ chemical plants, or steel plants in another 65 years? I doubt it. At least, I do not find any symptom that it can do such things.

Hopefully we're wrong and BD somehow magically gets better leadership and actually starts to become developed via industrialization.
 
.
Hopefully we're wrong and BD somehow magically gets better leadership and actually starts to become developed via industrialization.
Yes, you are right about the leadership thing. The now industrially superior country Germany did not come to the front until Wilhelm II (Friedrich Wilhelm Viktor Albert) came to take the reign of Germany. He is called Kaiser because it means Emperor in German.

Germany was called the sick man of Europe and was 100 years behind England in terms of industrialization in the 1880s. Because of his continuous efforts, Germany has become what it is today based on which Germany fought two World Wars though lost.

But, it still remains the same strong economy only because of heavy industrialization that started during the time of Kaiser in the 1890s.

Similar things happened in Japan after the Meiji Restoration in the 1860s. With industrial power at its disposal, it fought also two world wars.

So, it is always the group of leaders of a country that matters. Do you expect BD to produce such a group of leadership? We are the most corrupt people.
 
Last edited:
.

Latest posts

Pakistan Defence Latest Posts

Back
Top Bottom