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These 3 WWII Tanks COMPLETELY Changed The War | Full Documentary

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This content details the historical journey and combat performance of three pivotal "workhorse" tanks of World War II – the M4 Sherman (USA), Panzer IV (Germany), and T-34 (Soviet Union) – highlighting their design philosophies, battlefield effectiveness, crew experiences, and enduring legacies.

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After being introduced in World War I by

the British as a secretive new

technology to break the stalemate of

trench warfare, tanks began their

turbulent journey through history, a

journey that's still ongoing today. As

World War II approached, tanks were no

longer a secret, and all major nations

were building them according to their

own theories of armored warfare. When

the war broke out, the race to create

the best tank began, shifting between

absurdly heavy and extremely light

designs with everything in between. But

a few of them would be remembered not

because they were invincible or

overwhelmingly powerful, but because

they were what we call workh horses,

mass-roduced machines meant to defeat

the enemy through sheer numbers. This is

the story of the three main workhorse

tanks that carried World War II. You'll

see everything you didn't know about

them and hear the unique but dark

stories of the people who had to fight inside

them. Number one, the M4 Sherman, USA.

Before World War II, the United States

thought that tanks wouldn't play a major

role on the battlefield. They were

quickly proven wrong by the Germans, who

used them to great effect in their

Blitzkrieg tactics, shocking the world

with their rapid advance. When it became

clear that the United States would enter

the war, the best, let's say, tank they

could send to the front lines was the M1

combat car and the M2 light tank. Both

of which were severely outdated compared

to what the Germans had. To make matters

worse, the United States had only ever

built 300 tanks up to that point with no

large-scale production facilities,

experience, or even proper equipment for

tank manufacturing. So, they scrambled

and came up with an often overlooked

stop gap solution, the M3 Lee tank. They

had already outdated 37 mm gun with a

turret as well as a 75 mm field gun, but

they still lacked the technology to

mount that 75 mm gun in a rotating

turret. So, they did the best they could

to field something in North Africa where

the Allies were sustaining heavy tank

losses against the Germans. The 75mm gun

was modified and crammed into the hull

in a fixed casemate. On top of that,

they slapped on the already familiar 37

mm gun and its turret, packed six people

inside, and sent them off to battle. It

needed to plug the gap and buy time

until something better could be

developed. US engineers working on the

Sherman were closely observing European

tanks, trying to learn from their

advantages and shortcomings. They needed

to come up with a new tank as soon as

possible. And it had to be agile,

wellarmed, wellarmored, reliable, and

most importantly, cheap and quick to

produce in huge numbers. It also had to

be light and compact enough to be lifted

by cranes and loaded onto ships. So

through various ideas, errors and

trials, the M4 Sherman was born. They

had what they thought ticked all these

boxes and it was ready for deployment in

October 1942, just before the Battle of

Elmagne. Around 300 Shermans were

delivered to the British 8th Army, which

urgently needed tanks to replace its

horrific losses and support its

remaining tanks already outgunned by the

Panza 3 and four. And so the Sherman saw

combat for the first time in the hands

of the British. Alongside other tanks,

they were immediately thrust into heavy

assaults against Ruml's Africa Corps.

And although they were not invincible,

the Sherman was a huge improvement over

the Crusaders and M3 Lees. It had

greater firepower and better armor

protection, and even came with an early

version of a stabilization system,

allowing it to fire on the move with

some accuracy. But the most important

thing was its reliability in the harsh

desert terrain where other tanks

struggled to work. The Sherman was far

more reliable and easier to repair and

put back into action. The Americans

applied their automotive industry

experience, ensuring that all parts were

standardized and available in great

supply, which was extremely important in

the field. The Sherman's 75mm gun was

much better than the 50mm gun on the

Panza 3 and the shortbarreled 75mm on

the Panza 4. It also had solid

protection against them, at least until

the Panza 4 was upgraded with a high

velocity 75 mm longbarreled gun.

However, losses were high from the start

as combat was extremely intense. The

biggest tank killers were actually mines

and 88 mm anti-aircraft guns repurposed

as longrange tank killers which were a

nightmare for the Sherman's high

silhouette and medium-range gun in the

open desert terrain. There were a few

encounters with Tiger ones which first

appeared in Tunisia and they didn't end

well for any Allied tanks. The stories

of Tiger encounters terrified Allied

tank crews so much that they often

mistook Panzer 4s for Tigers in battle.

So all in all, the Sherman was deemed

good enough and pushed into mass

production. And when we say mass

production, we mean that at the height

of production, one Sherman rolled off

the assembly line every 30 minutes with

over 50,000 units produced throughout

the war. However, on the battlefield,

some glaring flaws quickly became

obvious. The Sherman couldn't

effectively destroy a Panzer 4 or

anything heavier unless it was at point

blank range or had a clear sideshot. And

then there was the second, more infamous

issue, its tendency to burst into flames

when hit. This earned the Sherman some

controversial and morbid nicknames that

stuck with it to this day. Tommy Cucker,

Ronson Lighter, etc. Let's first address

the gun issue. You've all heard about

the Sherman being a medium tank with a

medium velocity gun. The Sherman was

designed to support infantry and fire

mostly high explosive shells, which were

quite effective, while towed anti-tank

guns were originally the primary means

of destroying enemy armor before tank

destroyers were introduced. Also, the

Sherman's gun was deliberately shortened

so it wouldn't exceed the length of the

tank's hull, making transportation on

ships and trains easier. So, the Sherman

was never really intended to be a tank

killer. Of course, in practice and

combat, you couldn't always choose your

fights, and it quickly became clear that

the gun needed an upgrade. The British

came up with a stop gap solution, much

like the Americans did with the M3 Lee

by cramming a 17 pounder gun into the

Sherman's turret, creating the Sherman

Firefly. Later, the Americans developed

the 76 mm gun and a new turret for

versions like the E8, somewhat leveling

the playing field in terms of armor

penetration. Nevertheless, the Sherman

compensated for its lack of high

velocity projectiles with the sheer

volume of ordinance it could put down

range. It could fire up to 20 rounds per

minute with a good loader. Even enemy

tanks were sometimes engaged with high

explosive or smoke shells to blind them

and destroy their optics. And a couple

of Shermans firing together at the same

target was nothing to laugh at when you

were on the receiving end. Now, the most

famous issue, the Sherman being a death

trap. While it was far less protected

than German tanks, the Sherman actually

had the highest survivability rate for

its crew with an average of 1.3 tankers

killed per destroyed tank. For

comparison, T34 crews had twice this

number, despite the tank having one

fewer crew member, meaning that 50% of

the crew was killed per knocked out

tank. The biggest problem wasn't its

gasoline engine catching fire after the

first hit, as was often portrayed, but

actually the ammunition storage. In

early versions, shells for the main gun

were stored in the hull sides. also

known as sponssons in unarmored

containers. This was the most likely

place to get hit in the tank. And on top

of that, the shells were completely

exposed to sparks and shrapnel that

would fly through the tank if

penetrated. This earned the Sherman its

grim nicknames. Statistically, seven out

of 10 times a Sherman would immediately

burst into flames after being hit. To

solve this, the ammo rack was moved to

the floor and wet stowage was

introduced. This area was less likely to

get hit, and if it was hit, the ammo

bins were surrounded by a container

filled with a water glycol mixture. If

perforated, this fluid would extinguish

the fire, or at least buy enough time

for the crew to bail out. This

dramatically reduced the Sherman's

tendency to burst into flames from

around 70% down to below 20%, greatly

improving crew survivability. But once

the Sherman entered the war in Europe,

it was vulnerable to almost every

anti-tank weapon the Germans had. And if

it ran into anything heavier than a

Panza 4, it was usually a bad day for a

couple of Shermans. You've seen the

countless photos of additional armor

plates, sandbags, logs, track links, and

even concrete added to Sherman armor in

a desperate attempt to increase

protection. Commanders were furious at

first and ordered tank crews to remove

this improvised armor, but it continued

to be used throughout the war. Crew

survivability was further improved by

adding a hatch for the loader. Yes, the

loader didn't have his own hatch and had

to go through the commander's hatch.

then around or under the gun breach. One

veteran Sherman loader recalled his

horrifying experience from the war when

his tank was hit in the upper right part

of the turret. The shell instantly

killed the gunner and commander,

trapping the loader inside as the tank

quickly filled with smoke. He couldn't

move the two bodies in the tight space

of the turret. But luckily for him, the

turret was traversed in a position that

allowed him to crawl under the gun to

the driver's position where the driver

had already bailed out and from there

escape through the driver's hatch. This

was resolved by simply adding a hatch

for the loader along with springs for

easier and faster opening in an

emergency. The driver and co-driver also

received wider hatches when the frontal

armor plate was sloped 10° less. The

Sherman's armor was softer than armor of

German tanks. And while this made it

easier to penetrate, it had an

unexpected benefit because it created

less shrapnel when hit. German armor was

much harder, at least before shortages

of manganesees made the steel too

brittle. When German tanks were

penetrated, the armor broke apart

violently, sending sharp steel fragments

flying inside the tank and shredding the

crew. And in Sherman, this effect was

significantly less. The Sherman was

chosen as the backbone of the Allied

armored forces and saw combat in all

theaters used by different nations and

converted into numerous variants. In the

European theater, they struggled against

heavy German tanks which executed some

devastating ambushes. But in reality,

tank-on-tank battles were rare. They

were widely talked about because when

they did happen, they were dramatic and

unforgettable. In one of the first

encounters between Shermans and New

German armor in Europe, 17 out of 18

Shermans were knocked out in just 20

minutes. However, the majority of

knocked out tanks weren't total losses

and could be repaired and put back into

action. The mechanics, however, were

often traumatized by what they found

inside penetrated Shermans if a crew

member had been hit. The scenes were

often so gruesome that the entire

interior had to be repainted over the

stains of what was once a tanker. The

swimming duplex drive Shermans led the

way in the invasion of Normandy, while

many others were modified for roles

ranging from laying bridges to clearing

mines and everything in between.

Shermans arrived when and where they

were needed, and most importantly,

always in large numbers. It wasn't a

perfect tank, and the US had already

started looking for a replacement during

World War II to correct the Sherman's

flaws. But bringing a new tank to the

same mass production level as the

Sherman during wartime was impossible.

So the Sherman remained the main

workhorse until the end of the war. It

made up for its flaws through sheer

numbers, ease of production, and

reliability, playing a major role in

bringing World War II to an end and

forever staying in our history. Number

two, the Panza 4, Germany. So where does

the story of the Panzer 4 actually

begin? January 1934. With the Reich

still constrained by the Treaty of

Versailles, German military planners

discreetly issued requirements for a new

medium tractor, their laughably

transparent code for a medium tank.

Under their revolutionary Blitzkrieg

doctrine, the Vermacht needed a support

vehicle that could accompany all their

other vehicles and provide them with

direct high explosive support. The idea

was that the Panza 1 and 2 would engage

infantry. The Panza 3 would serve as the

main anti-tank weapon with its 37mm gun.

And the Panza 4, now called accompanying

vehicle, would work alongside them,

filling the gap in high explosive

firepower with its short-barreled 75mm

howitzerike gun. Due to the limitations

of early industry, a practical design

was chosen and production began. The

initial production model A had just 15

mm of frontal armor and leaf spring

suspension. Far less sophisticated than

the torsion bar systems favored by

German engineers, but significantly

easier to manufacture. Only 35 of these

Model A's were produced before

improvements began rolling in with

additional armor plates, engine and

visibility improvements, etc. Then the

infamous September 1st, 1939 came.

Germans had just a little over 200 Panza

4s among their 2,700 tanks. They were

distributed sparingly with 20 to 30

tanks per division, ready to shock the

world. Panza crews spearheaded the new

Lightning War, pushing through Poland

for 72 hours continuously. Panza 4 did

its job just as intended, supporting

other tanks with a howitzer that

immediately proved effective. Its armor

turned out to be its biggest flaw,

incapable of stopping any anti-tank

weapons. Later in the invasion of

France, in isolated cases where panzas

met French B1 tanks, it was proved that

the 75 mm howitzer was useless against

armor. But as it was never intended to

fight tanks, this wasn't a big deal. But

we said that the Panzer 4 was the main

workhorse. Well, things were about to

take a dramatic turn. Production began

mounting up, reaching over 8,500 Panzer

4s of all models by the end of the war.

The assault gun is actually the only

fully tracked vehicle Germans produced

more than the Panza 4 with around 10,000

units. Panzer 4 crews would find

themselves facing a rude awakening on

the Eastern Front in 1941. The German

high command had expected another swift

victory and initially everything seemed

like one. But soon their tank crews

encountered Soviet T34s and KV tanks

which were virtually immune to almost

everything the Germans had at the time

except for 88mm flack anti-aircraft

cannons. On the other hand, their panzas

were being pierced by Soviet 76 millm

high velocity guns. Hitler reading these

panicked reports made one of his rare

sensible military decisions. At first,

the Panza 3 was upgraded from 37 to 50

mm cannon, but this one also quickly

became obsolete. Because the tank

designed to fight other tanks could no

longer be uparmed due to its smaller

turret ring, which couldn't accommodate

anything larger than a 50mm gun. Hitler

ordered the development of a high

velocity 75mm gun for the Panza 4 which

had a turret ring 12 in larger. The

result was the F2 variant equipped with

the quite formidable version of the

famous 7.5 cm Pac 40 now capable of

penetrating 77 mm of armor at 1,800 m.

Thus, the Panza 4 became something

entirely different than originally

designed with a weapon completely

opposite to the 75mm howitzer. But what

about the crews? They were designed and

trained as essentially artillery support

on tracks. And all of a sudden, they got

a high velocity gun and became a

designated anti-tank weapon and a main

battle tank. Although crews with these

upgraded tanks had some sense of relief

as they finally had a fighting chance

against the Soviet behemoths, they were

about to be pushed into an even more

dangerous position to fight other tanks.

And there would be no shortage of that

on all fronts. The Panther that was from

the ground up made to fight tanks with

sloped armor and arguably one of the

best anti-tank guns of the war was

intended to replace the Panzer 4 for its

medium tank role. However, as the

Panther was rushed into production to be

ready for battle at Kusk, many of its

flaws were overlooked and found out in

the field. So, the Panza 4 had to still

pull most of the weight. Because it was

a well-designed platform from the

beginning, the Panza 4 had enormous room

for improvements, at least when that was

possible. An additional 30 mm armor

plate was bolted directly onto the

original 50mm frontal hull armor. And

the distinctive shirten side skirts were

added along the sides to protect against

anti-tank rifles and even came in handy

for predetonating shaped charges of

American bazookas away from the main

armor. But crews were frustrated by how

those skirts were easily torn off when

driving through dense brush. The frontal

armor in upgraded versions was now

strong enough to deflect Sherman's 75mm

medium velocity shells. By late 1942,

the Panza 4 was facing a new enemy in

North Africa. The F2 and G variants

became known as Panzer 4 specials among

British tankers who quickly learned to

respect their firepower. At Casarine

Pass in February 1943, they destroyed

over 20 M3 Grants and early model

Shermans while suffering minimal losses.

The longer L48 gun could penetrate a

Sherman's frontal armor easily at over

1,000 m, while the Sherman's 75 mm

needed to close to within 500 m to have

any hope of penetrating the Panza 4's

enhanced glacus plate. North African

combat proved unique for all tankers,

and Panzer 4 crews fared no different.

Machines and people were brought to the

breaking point in extreme heat during

the day and cold at night with flies and

sand everywhere. Inside temperatures

easily exceeded 50° C, 122° F. The

fiveman crew fought from basically an

oven surrounded by ammunition,

equipment, and each other's sweat. Metal

surfaces were untouchable by bare skin,

and they could and did literally bake

eggs on their armor. They were fighting

over fuel and water more than anything

else. Sand and dust in the lubricant oil

could turn grease into grinding paste,

causing guns to jam, tracks to

disintegrate, and engines to overheat or

seize up. In the open desert, a broken

down Panza could easily mean death or

capture, so crews were highly motivated

to improvise repairs. By early 1943, the

Africa Corps was cornered in Tunisia.

Outnumbered and cut off from supplies as

the Allies pressed their final offensive

with no route of escape as defeat became

inevitable, orders were given to destroy

any remaining panzas to prevent them

from falling into Allied hands. One

veteran recounted how his crew poured

sand into the fuel tank, ran the engine

until it seized, then hammered rocks

into the barrel, loaded an H shell, and

fired the gun remotely with string. This

left the tank completely wrecked with

dead engine and exploded gun, so it was

useless to the enemy. However, if you

could ask any veteran Panza crewman

about their worst posting, they'd

usually point east. Besides the fact

that 75% of all Panza 4 losses occurred

there, just the nature of the front and

combat were outright horrifying. Mass

waves of Soviet tanks charging in

seemingly endless numbers and extremely

close combat broke tanker's psyche. The

subtle minus40° C temperatures, snow,

and mud wre havoc on machines and people

just like heat and sand in Africa. The

transmission fluid became so viscous

that it had to be heated with torches

for up to an hour before the tank could

move. The Maybach engine starter system

frequently failed, forcing crews to

light small fires under the engine, then

use the inertia handc cranked starter

system. Even fuel and grease could

freeze, making just putting the tank in

working order a nightmare. Crews

improvised to somewhat heat their tank

overnight and slept inside breathing

gasoline fumes to not freeze to death.

While frostbite was a common thing,

ammunition storage was another horror

for its crew. The Panza 4 carried

between 80 to 87 rounds of 75 mm

ammunition depending on the variant, and

it was stored in bins throughout the

fighting compartment, including

vulnerable positions in the hull sides.

Unlike late war American tanks with wet

ammo storage that cleared their lights

every time reputation, a penetrating hit

in Panza 4 often caused catastrophic

secondary explosions. German tankers

called being hit brewing up a darkly

humorous euphemism for the tank erupting

into flames as ammunition cooked off,

giving crews at best mere seconds to

escape. You can find such photos on the

internet where crews didn't manage to

get out in time. Then imagine that

you're looking at this site as a tanker

of the same type of tank, knowing that

same fate might happen to you at any

moment. By 1943, Soviet IS-2 heavy tanks

and improved T-34s with 85mm guns began

emerging on the battlefield. The Model H

tried to address this with additional

armor, but there wasn't really much they

could do as the tank was now weighing

over 25 tons despite being designed as a

16-tonon vehicle. On the Western Front

after the invasion of Normandy, Panzer

4s fought heavily with Allied Shermans

and Churchills. But the tanks were not

such a problem as Allied superior

artillery, handheld anti-tank weapons,

and ground attacking aircraft that

terrorized German armor. As resources

dwindled, quality suffered. The final

variant J introduced in March 1944 was

actually a step backward. The auxiliary

200 L fuel tank was moved into the crew

compartment to extend range, but this

made it more vulnerable to fires. The

power traverse system for the turret was

eliminated entirely, so gunners had to

manually crank the turret. Now a full

360° rotation took at least 60 seconds

compared to just 15 seconds with power

traverse. Because of shortages of

rubber, road wheels were now made all

steel, giving it a funny reputation that

it could be heard miles ahead as tracks

were squeaking. Manganese shortages also

made all German later war tanks suffer

from brittle armor. And even paint was

in scarce supply. They'd paint just the

upper part of the fighting compartment

white for better visibility and leave

the lower part with just anti- rust

protection. Because of bombings taking a

heavy toll on factories, spare parts

became so scarce that maintenance units

regularly cannibalized disabled tanks to

keep others running. At least this was

an advantage, as all Panzer 4s had

standard and interchangeable parts, and

older variants could easily be fit up

with parts of newer models and vice

versa. With factories in ruins and

resources dwindling, the final chapters

of the Panza 4 story would reveal just

how desperate the Reich had become.

Panza crew training had been shortened

from the original 16week program to

barely 4 weeks. Even the intercom

systems were often absent in late

production tanks. The driver training

before combat deployment had been

reduced, resulting in frequent

transmission failures as inexperienced

drivers mishandled the delicate gearbox.

Young crews with barely 3 weeks of

instruction were being thrown into

combat against battleh hardened Allied

and Soviet tankers. The life expectancy

of a Panza 4 crew on the Eastern front

had dropped to roughly 2 weeks. While

the Tiger was an overengineered

primadona that was giving Germans some

desperate hope, the reality was that for

every operational Tiger on the front

lines, there were 20 Panza 4s. And the

average operational readiness rate for

Panzer 4s stood at 62% versus just 37%

for Tigers. So even when Tigers were on

the battlefield, more than half of them

weren't working. As Germany sought to

use everything they had, available Panza

4 hulls were used for the creation of

many other vehicles like the Yagged

Panza 4 or Stomashutz 4 and even Panza 4

with a 150 mm gun. As the war situation

deteriorated, fuel shortages and no

spare parts meant tanks were abandoned

when they stopped. The once proud

spearhead of Blitzkrieg had become

static pill boxes dug into defensive

positions as the Reich collapsed around

them. Yet somehow the Panzer 4's story

didn't end with Germany's surrender.

Over 300 vehicles were supplied to Nazi

allies during the war. Syria even

deployed Panzer against Israel in 1967

in the initial phases of the 6-day war,

ending a remarkable 30-year combat

career for a tank designed as infantry

support in

1936. Number three, the T-34 Soviet

Union. The story of the T-34 begins in

1937 when the highly maneuverable BT

tanks showed their lack of protection

and firepower. A new fast tank was

requested with better specifications and

most importantly sloped armor. After a

couple of prototypes like the BT20, A20,

and playing around with different types

of suspension and track systems, finally

by the beginning of 1940, the first two

T34 prototypes were ready for testing.

They immediately proved to be faster

than the BTS. But the revolutionary

sloped armor, although it increased

protection made the interior of the tank

super cramped, and visibility from

inside the tank was catastrophic.

Prototypes were shot at with 37 and 45

mm anti-tank guns and surprisingly

didn't take any major damage. After a

couple of months of testing, mass

production was ordered. The early models

weighted 27 tons battle ready with four

crew members cramped inside. It was

giving it a top speed of 30 mph and 460

L of diesel gave it a maximum range of

180 mi. It was shown that mass-roduced

models were not the same quality as

prototypes and the first notable

problems came with the engine and

cannon. The average lifespan of V2

engines was just 100 hours, while the

first 76.2 mm cannon couldn't penetrate

standard armor plates. Luckily, the F34

gun in the same caliber solved this

problem, at least temporarily. With its

500 m/s muzzle velocity at,000 yd, it

could penetrate more than 2 in of armor,

which was more than any German vehicle

had at the time. Another problem came

with the first turret design as it was

small and extremely cramped. Also, it

didn't have a wide field of periscopes

around it for a commander to observe the

battlefield from inside. It had only one

view slit and a single periscope, so you

would be semi- blind from inside the

tank. A good thing was that it had an

electric motor for traversing the turret

and could perform a full circle within

just 10 seconds. However, the gunner had

to constantly switch between powered and

manual operation to precisely guide his

gun to a target because when using the

electrically powered system, the turret

would continue spinning after releasing

the switch. So, for precise aiming, the

manual handle had to be used. Although

it made the interior of the tank

anything but comfortable and pleasant

for the crew, the 60° sloped armor with

a 45 mm front plate was significant

protection against early German tanks

and anti-tank guns. The armor was made

of a special steel alloy designed to be

strong but flexible so it could be bent

without breaking. Also, the angled

design made it easier to deflect

incoming shells. And this way, the 45 mm

angled plate would offer the same

protection as a 90 mm non-angled plate.

When the invasion of the Soviet Union by

the Germans began, it was time for the

T34 to show its capabilities. At that

point in the war, the most advanced

German tanks were the Panza 3 and 4, and

although they had similar thickness of

armor, it wasn't at steep angles. Also,

the German guns were shorter and fired

shells at lower velocity. This made them

both vulnerable to the T34's powerful

cannon, and chances of their guns

penetrating its frontal armor were slim.

The best option against the T34 was the

88 flat cannon, but they were rare and

scarce in this period of the war. The 37

and 50 mm anti-tank guns simply couldn't

do much against the

T34. So, the T34 was better protected

with a more powerful gun and even in

bigger numbers. But the Soviets were

beaten by the Axis battle after battle.

Ever wondered why that was? Well,

firstly, being in a cramped interior

without any effort in making comfort for

the crew made it exhausting. The

commander had to do all his duties while

also being a gunner with poor visibility

from inside. The early forward opening

hatch without a turret cuper forced him

to observe the battlefield through a

single vision slit and traversible

periscope. In the extremely cramped

turret, the loader stood on small metal

boxes of ammunition without a turret

basket. This meant that when the turret

was spinning, the floor stayed in its

place, and if not careful to move with

the turret, it could cause horrific

injuries to the loader. After firing

nine rounds from the racks, the loader

had to pull shells from floor boxes,

which were now covered with spent

casings. The driver's situation was

described as inhumanly harsh. Controls

for driving the tank were incredibly

heavy and unreliable, and he sat behind

sloped frontal armor in anything but a

comfortable position. And to add a

cherry on top of the cream, T34s were

operated by young, inexperienced crews

receiving just 72 hours of specialized

training on top of basic military

training. So the highly organized and

experienced German armored units quickly

surrounded and defeated Soviet armor

time after time, although being almost

always outnumbered by Soviet tanks.

Even Germans reported that Soviet

tankers were disorganized, that they

needed much more time to spot and aim at

the target, and that Germans could put

out three shots in the same time Soviets

could fire one. Instead of engaging

different targets, an entire platoon

would focus on a single one along with

other basic tactical mistakes. Most

T-34s didn't have radios, forcing

platoon leaders to rely on flags and

hand signals to communicate. Mechanical

malfunctions were so frequent that crews

spent more time repairing the tank than

actually operating it. They even carried

a spare transmission because of how

often it failed. The gearbox frequently

got stuck, so drivers kept a

sledgehammer nearby to deal with the

issue. The tracks could also come apart

at any moment, leaving the tank

immobilized in the middle of the

battlefield. Rods connecting the track

links often slid out while the tank was

in motion, so crews welded steel blocks

to the sides of the hull. These blocks

would stop the rods from sliding out

completely by pushing them back into

place. These mechanical issues alone led

to a horrific 50% of tank losses in

battle. Although the T34 was relatively

safe from early tank guns, its armor was

prone to splintering from

non-penetrating hits. This caused metal

fragments to shear off from the inside

and fly at great speed, effectively

becoming shrapnel that severely injured

the crew. And if your tank caught fire,

and by the way, Soviet shells were more

prone to catching fire and were

scattered throughout the tank. Good luck

trying to open a single extremely heavy

hatch on top of the turret. For the

driver, the forward hatch made it even

harder to escape from their awkward

sitting position. To make matters worse,

the fire extinguishers used toxic carbon

tetrachloride, meaning you'd want to

leave the tank whether the fire was

extinguished or not. On average, Soviet

crews suffered two men killed per

destroyed tank, compared to 1.3 crewmen

killed per destroyed US Sherman tank,

despite the Sherman having one

additional crew member. If that wasn't

enough, in 1942, Panzas were upgraded

with long barrel guns, making them

capable of destroying T34s at longer

ranges. Soon, the Tiger 1 and Panthers

entered the battlefield, while the T34

remained mostly unchanged. Although the

T34 saw slight improvements, a

redesigned turret with better hatches,

increased frontal armor to 75 mm, and

external fuel tanks, the situation on

the battlefield was still overwhelmingly

against them. To counter the heavily

armored Panther tank, the T34 was

upgraded with an 85 mm cannon adapted

from an anti-aircraft gun. This new

weapon had a high muzzle velocity and

was capable of penetrating 94 mm of

sloped armor at 1,000 yd. Despite this

improvement, Soviet armored forces

continued to suffer devastating losses

with 15,000 tanks destroyed in 1942

alone. However, the Soviet Union was far

from defeated. They relocated their

armament factories far to the east out

of reach of German bombers. By 1943,

these factories produced an astonishing

15,500 tanks, tripling Germany's

production. Workers lived in freezing

barracks in remote locations, working

long hours with makeshift tools, limited

materials, and under the constant threat

of bombing. These enormous production

numbers, where a single factory could

sometimes produce 1,000 tanks in a

single month, came at a cost to quality,

of course. Many tanks were sent into

battle without paint or even without

optics or machine guns. Engineers were

well aware of these issues, but

understood that addressing them would

slow down the production of desperately

needed tanks. As a result, the only

changes allowed in production were those

that made it faster and cheaper. This

was best shown at the Stalinrad tractor

factory, which continued producing tanks

despite relentless bombing. Even when

German forces reached the facto's yard,

workers kept assembling tanks that went

straight into battle in semi-operational

condition. When the Germans finally

captured the factory after intense

fighting, they found workers still

putting tanks together. After the

Soviets liberated the factory, they

immediately resumed production,

assembling tanks from leftover parts

amid the ruins, demonstrating just how

desperate the situation had become. In

1943, the T34 was about to clash in the

largest tank battle in history against

the superior German Panthers, Tigers,

and improved Panza Force. The crews of

T34s were no longer inexperienced

rookies and now knew how to use the best

of their machine. With meticulously

planned and prepared defenses with

thousands of mines, obstacles, and

anti-tank weapons, around 6,000 tanks

clashed in a horrific battle. Although

winning the battle and completely

changing the tide of the war, Soviets

saw the urgent need for a more powerful

cannon for the T34.

Some German tanks received dozens of

non-penetrating hits, still being in the

fight even after both their tracks were

blown off. T34s could only penetrate the

armor of Tigers or Panthers at point

blank range or by hitting them from the

sides. So in 1944, the T3485 went into

production with the cannon we mentioned

earlier. Also, the bigger and simpler

turret was introduced, moving to a

three-man turret instead of two, giving

the tank commander a slight relief.

Interestingly, Germans employed a lot of

captured T34s on the Eastern front,

which were modified to use German

equipment. They were also painted with

large crosses or swastikas on top of the

turret to prevent friendly fire

incidents. After World War II, the T34

was still widely used around the world

long after the war despite being

technologically long surpassed. The T34

evolved into the

T-5455 series, which became the backbone

of Soviet armored forces and the most

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YouTube Transcript:These 3 WWII Tanks COMPLETELY Changed The War | Full Documentary