Breath of the Wild has already been out
for 3 years now, and a lot of us already know
a TON about the inner workings of this game
- such as all the flashy combat maneuvers,
locations of the best items in the game, and
even a great understanding of this games physics
system to help them in their adventure.
But out of everything a player may have learned
about this game over the last few years, one
of biggest misconceptions that tends to be
a mystery for most players has to deal with
this games shield system, and what exactly
the little numbers that reside by them actually mean.
You see, unlike the numbers by the weapons
and armor, which clearly reflect the weapons
damage output and the armors defense level
respectively, the game never once explains
to the player exactly what the shield numbers
mean.
Considering that all sheilds in this game
work the exact same way, by blocking 100%
of all incoming damage, most players just
assume that this number must simply be the
shields durability stat, which is in fact,
not the case at all.
So I thought to myself...simple - what better
way to find the answer to this question then
by looking in the OFFICIAL guide book for
Breath of the Wild - and to my suprise, there it is - on page 290:
Now this is VERY wrong
The only shields that do damage in this game
by parrying are the Lynel shields, and even then,
the number by them has NOTHING to do
with the damage it outputs.
It really beats me why the OFFICIAL guide
book for this game would spread such misinformation,
but then again, this is also coming from the
same people who said that a green rupee is
worth 5...so thanks Piggyback!!
So, since both the base game and the official
guide are incompetent on explaining
what these numbers mean, I took it
to myself to actually do some research both
in game and out to finally solve this so called mystery once and for all.
And, as it turns out, these numbers actually
have a lot more meaning that one may think.
For starters, I’m gonna start calling these
numbers by their proper name “the shield
guard stat”, as that's what they are referred
to as when you find one of the upgraded versions
later in the game.
So as it turns out, I found that the shield
guard stat effects a total of 3 different
properties of the shield itself - its parrying,
blocking, and its resistance.
The first 2 are quite simple to explain, but
I'll save the resistance property for last,
as it's a bit more complicated.
So, the first thing the shield guard stat
can effect is the capability of disarming
an opponent upon performing a perfect parry
against their attack.
This can only be done when the shield guard
is HIGHER than the damage output of the enemy
that you are facing.
Let's take one of the red moblins you can
find off the plateau for an example, which
natively have a damage output of 2, plus the
9 point clubs that they hold, which bring it up to 11.
If I try to parry one of their attacks with
a wooden shield, which has a guard of 2, the
parry will simply stager the opponent, while
his weapon will stay in his hand.
But if I perform this move with a Minds eye
shield which has a guard of 18, the parry
will cause the moblins weapon to fly out of
his hand, leaving him far more vulnerable
then he was before.
This is very similar to another property that
the shield guard stat can effect, which is
its blocking capability.
Similar to how a shield with a higher guard
then the enemies damage output can cause them
to be disarmed upon parrying, simply blocking
an enemy's attack without parrying in this
same scenario will cause an enemy to be staggered,
unlike with lower rated shields, where
they will continue to hit right through it.
Like how we can see this Blue Bokoblin constantly
smack through a weaker shield like a wooden one,
while a stronger one like the lynel variant
will cause him to be knocked backwards upon hitting it.
But the only thing is, these special characteristics
only apply to the normal enemy types in this game,
such as Bokoblins, Moblins, and Lizarfos.
Enemies like Lynels cannot be disarmed by
using a perfect parry, and Hinoxes will still
be able to knock a player back regardless
of what type of shield that they are using.
However, the final characteristic that the
shield guard can affect - its resistance - is
a bit more complicated to explain then the
other 2 - as it has to deal with some behind
the scenes math that relates to how the shield
itself takes damage upon being beaten.
First off, I just want to clarify that this
is NOT its durability stat, as that is a completely
separate and hidden value each shield has
that is unrelated to the shields guard stat.
For an example, the wooden shield has a guard
of 2 but a durability of 12, while the royal
guards shield has a guard of 70 , but a measly
14 durability - Ill include a link to all
the shield guard ratings and hidden durability
stats in the description below for those of you interested.
But the biggest misconception about the durability
stat is that every hit to the players shield
consumes 1 durability point, which is not
the case at all.
In actuality, its the shield guard stat determines
how many durability points will be taken to
the shield upon getting struck, with the minimum
cap being one.
For an example, let's take 2 different shields
with different guard stats, and test them
against a Red Hinox - whom has an attack output
of 24.
The first shield, which is an Emblazoned Sheild
with a durability of 12 and a guard of 3,
can only take a measly 3 hits before shattering.
Meanwhile, a savage lynel shield with a guard
buff of 78 and a durability of 20,
takes a full 20 hits to break, which is the same as
the number of durability points of the shield.
So after doing this, I came to the conclusion
that having a lower shield guard then the
enemy's attack power would cause the shield
to take more then one durability point away
upon a strike, while having a higher guard
then the enemy will lower this number all
the way down to one.
Except there is one slight problem to this..when
testing this theory again against the same
Red Hinox, using an Emblazoned shield with
a durability of 12 and a guard of 18 - which
is lower then the Hinoxes attack power of
24, the shield was still able to break in
a solid 12 hits.
It was then when I knew that there must have
been some hidden math behind this to be able
to explain how exactly the durability is calculated,
but after dozens upon dozens of more tests with
different shields, I was unable to crack this
code.
Until I stumbled across a Gamefax thread by
user Thrasher7170, which I'll link in the description,
that provided an accurate formula used to
calculate the way shields take durability in this game.
So, you math fans are probably gonna love
this.
In order to calculate durability loss, the
game uses a rule system to check how many
points will be taken out of the shield.
If A, the attack power, <= 10 + G, the shield
guard, then the shield only loses one point of durability upon strike.
However, if the attack power is Greater than
10 plus the shield guard, then the shield
will lose more then one point of durability.
So, going back to the Hinox example, if we
plug in the attack output of 24 in place of
the A, and we plug in the Emblazoned shields
guard of 18 in place of G, the 18 adds to
the 10 to create 28, which is greater than
the rating of 24, which is why the shield
was only taking one point of durability per
hit - when I originally thought it would take more.
So theoretically, any shield with a guard
of 14 or higher will work the same against
this enemy, as the only other stat that would
make them differ is their base durability.
But if we plugged in the values of the first
shield we tested against the Hinox which had
a guard of 3, it falls under the second equation,
meaning that it will take more damage then one per hit.
And the way that this is calculated is by
using the following chart provided in the
same gamefax thread, by subtracting 10 + the
guard rating away from the enemy's output,
and matching it up with its corresponding
value.
So in this example, the 24 base damage minus
10 minus 3 will equal 11 - which the chart
tells us that the durability done to the shield
upon each hit will be 4 - which explains why
it was able to break in a mere 3 hits in the past example.
For those of you who want a better understanding
of the chart without having to memorize it,
it basically equates to 1 extra point of durability
loss for every 5 extra points of enemy damage
- so it's really not as complicated as it
looks.
But other than that, that's basically everything
to discuss when it comes to the hidden characteristics
of shields in this game.
Although there's a lot of math behind the
last one, its easiest just to remember that
the higher numbers help preserve a shield's
durability more than the lower ones.
It's the reason why a wooden shield will shatter
upon a single blow from a Lynel, while a royal
guards one can take multiple, despite having
similar durabilities.
But with everything that I’ve explained
about this games shield system today, through
the parrys, blocking, and the shields resistance
and durability stats, I hope this helped clear
up one of Breath of the Wilds most confusing
systems, and hopefully you'll be able to use
this information well in your future playthroughs
of this game.
But anyways, thank you so much for watching!!
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videos like this on the channel, but if you
liked what you saw today, definitely let me
know if you would like to see more, because
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make.
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