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From YouTube: 120 Design Lessons - Day 19
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A
A
A
That
gives
you
a
square
base
and
that's
pretty
much.
We
can
actually
take
a
take,
an
exact
measurement
but
we're
perfect
to
square
to
within,
like
a
quarter
inch
right
now
and
then,
when
we
put
the
panels
on
how
do
we
make
sure
that
the
tops
remain
like
say,
there's
warping
on
the
panels?
A
How
do
you
get
that
into
place?
Well,
two
things
after
that,
so
one
would
be
lag
bolts
in
between
the
panels
and
second
thing
is
then
the
top
plate
which
will
bond
everything
together.
How
do
we
assist
this?
So
we've
got
a
bunch
of
laser
levels.
A
What
we
can
do
is
put
the
laser
levels
on
the
corners
and
then,
when
we
place
the
panels
up,
you
can
see
the
little
beam
of
light.
So
we
can
put
the
lasers
on
the
corners
I'll
show
a
picture
of
this,
so
this
is
actually
under
sh.
To
build.
A
A
So
here
you
have
to
take
precautions
as
far
as
how
do
you
get
everything
lined
up
and
and
one
way
to
do
it
is
these
lasers.
So
what
we
can
do
is
put
two
lasers
on
the
corner
like
what
I
show
here
and
we
have
these
layers.
A
We
have
actually
four
lasers
and
they
shine
a
beam,
a
light
right
next
to
the
wall
like
say,
half
an
inch
away
so
that
when
you
put
the
panel
up,
you
can
take
a
piece
of
paper
white
piece
of
paper
in
the
daylight,
the
the
laser
is
marginally
visible.
It's
a
green
laser,
but
what
you
would
do
is
take
a
piece
of
paper
and,
like
put
it
next
to
the
wall
and
you'll
see
the
laser
dot,
but
it's
actually
going
to
be
a
line.
It's
going
to
be
a
line.
A
A
A
A
If
you
put
this
on
a
corner,
then
you
can
shoot
two
corners
at
the
same
time.
So
this
is.
This
is
what
we
have.
If
you
set
on
the
corner,
it
can
shoot
actually
two
two
lines.
At
the
same
time,
we
actually
have
a
a
bunch
of
more
lasers,
which
are
just
one
one
plane
so
that
if
we
put
them
on
the
corner,
you
can
do
that
they're
brighter
they're
actually
brighter,
because
these
are
sharing
their
light.
A
So
we'll
see
how
that
works,
and
the
first
thing
is:
is
it
gonna
be
practical?
I
hope
so.
I
hope
the
lasers
can
help
us
as
opposed
to
we
just
don't
use
them,
but
the
point
of
reference.
The
number
one
point
of
reference
is
the
bottom.
A
Plate
where
the
walls
lay
so
I
mean
that's,
that's
the
start.
We
know
we
have
to
put
the
panels
there.
We're
not
gonna
put
them
off
the
plate,
keep
it
on
the
plate,
because
we
know
that
the
plate
is
already
good,
so
so
the
plate,
sill
plate,
is
our
first
measure
of
accuracy.
A
A
So
I
measured
the
height
with
a
laser
level
before
and
we
were
like,
plus
minus,
like
three
eighths
well,
more,
like
difference
was
like
within
three
eighths
or
about
a
half
inch
from
the
highest
point
to
the
lowest
point
anywhere
along
the
foundation.
So
you
wouldn't
really
be
able
to
see
that
with
your
eyes,
and
this
is
something
we
want
to
record
for
quality
control
purposes
as
a
reference.
Okay.
How?
How
well
did
we
get
the
foundation?
A
A
Then
you
start
mounting
the
panels
and
then
once
we
we
started
each
corner,
so
we
can
build
up
each
corner
because
that's
an
absolute
reference.
We
know
the
corners
are
there.
Only
question
is
when
we
go
if
we
were
to
go
from
one
side
to
the
other,
if
we
were
starting
at
four
corners,
which
right
now
we
have
six
six
people
working
out.
A
There
are
seven
people
we
can
do
up
to
three
with
two
people
per,
but
maybe
like
do
a
couple
with
a
few
people
yeah
like
two
teams
on
one
corner,
so
there's
two
corner
pieces
and
maybe
start
the
third
one
with
a
third
team.
A
A
A
Now
don't
forget
before
the
soap
blade,
though,
what,
before
we
start
laying
the
walls
on?
Is
there
any
more
foundation
detail
we
have
to
address,
there's
a
silk
gasket
on
a
foundation
there's
also,
if
you
remember
in,
can
anyone
tell
me
for
the
sill
plate?
A
B
A
There
is
one
more
detail
that
you
just
have
to
pay
attention
to:
don't
do
this
without
it.
So
what
was
that
detail.
A
A
In
order
to
attach
it,
it's
probably
going
to
be
moving
around,
we
can,
we
can
do
like
a
little
staple
on
it,
but
then
we
have
to
put
tape
on
it.
The
butyl
tape.
You
don't
want
to
puncture
it
I
mean,
but
I
don't
know
how
we're
going
to
keep
it
in
place
without
you
know,
maybe
like
do
a
little
staple
and
then
put
the
sealing
tape
over
that.
A
Only
safe
place
to
attach
it
without
getting
into
issues
would
be
on
the
back
of
the
wall
panel,
but
no
I
mean
we
want
to
have
this
continuous,
continuous
vinyl
flashing
over
the
entire
surface.
That's
100
foot
raw,
so
we
laid
out
say
on
16
foot
side
and
a
32
foot
side.
We
lay
it
all
out
so
probably
useful
to
attach
and
do
a
couple
of
staples,
but
then
we
tape
it
up
with
the
the
it's
called
the
self-adhering
waterproof
barrier
tape.
A
It's
a
tape
we
have
so
just
if
we
do
any
stapling
of
this
to
the
foundation
sill
plate.
You
want
to
make
sure
we
close
up
those
holes.
There's
a
little
a
little
staple
hole.
That's
a
waterhole,
a
place
where
you
can
get
water
on
the
staple.
A
So
actually,
in
fact,
the
idea
there
good
idea
would
be
because
that's
self
sealing
the
tape
is
self
sealing,
put
the
tape
on
first
and
then
put
just
put
the
staple
through
that.
What
makes
more
sense,
I
guess
either
because
it's
self-sealing,
I
don't
know,
I
think,
whichever
if
we
staple
it,
I
think
either.
A
A
A
A
Maybe
we
can
just
put
some
tape
onto
the
cement
board,
tape
it
to
the
cement
board,
so
it
doesn't
move
around,
I'm
not
sure
how
flexible
it's.
If
it's
going
to
stay
that
way,
though
it
might
just
want
to
bend
up
and
it'll
be
in
the
way
you
want
it.
So
when
we're
putting
the
walls
on,
it's
not
nothing's
in
the
way
like
once,
you
put
one
one
of
the
walls
on
you
pinch
it
down.
A
A
A
Under
walls
and
then
also,
I
would
say,
make
sure
the
the
strip
of
insulation
is
in
place.
Let's
not
forget
that,
because
that
would
be
just
a
major
thermal
bridge
and
then
also
make
sure
the
silk
gasket
is
in
in
place
that
we
didn't
like
rip
it
off,
stand
on
it
and
rip
it
off
make
sure
the
silk
gasket
is
in
place.
A
A
Okay,
so
let's
let's
talk
about
the
lag
bolts,
because
that's
that's
important,
so
let's
do
a
slide
duplicate
slide.
So,
what's
a
lag
bolt,
how
does
that
thing?
Look.
A
These
are
live
bolts,
so
take
one
of
these
we're
using
three
and
a
half
inch
ones,
so
we
can
span
across
the
three
inches
of
the
two
panels
next
to
each
other
and
three
and
a
half
inch
because
you
see
the
the
end
of
it
is
tapered
so
like
the
end
of
it
will
not
be
catching
anything.
So
we
use
three
and
a
half
so
that
you
get
all
to
the
threads
in
a
little
bit.
The
tip
will
be
sticking
out,
but
you're
grabbing
the
full
one
and
a
half
inches
as
opposed
to
one
inch.
A
A
A
Freight,
so
so
we're
shopping
for
right
angle,
impact.
A
A
B
B
A
A
A
A
A
So
those
are
the
holes
that,
like
we
were
doing
the
cheat
sheets
make
one
hole
in
the
middle.
I
don't
know
I
have
like
52
and
five
just
keep
it
simple
there.
Let's
go
to
something
you
can
remember
like
four
and
a
half
feet
since
we
have
nine
foot
modules.
Half
is
four
and
a
half
just
keep
it
simple.
A
Six
point:
five
is
well
seven
4.5
plus:
let's
do
2.5
so
start
at
4.5
and
go
2.5
up
and
down
so
that
you're
you're
capturing
you
kind
of
midpoint
and
then
it's
kind
of
like
mid-up
way
and
such
from
there.
A
Centering
hole
now
there
was
the
idea
of
a
centering
hole
so-
and
this
is
this-
is
negotiable,
we'll
find
out
in
practice
how
it
works.
But
what
we
want
to
do
is
on
one
side,
when
you
have
one
panel
going
to
the
next
one
pre-drill,
the
hat,
a
half
inch
hole
for
the
half
inch
bolt,
so
it
just
goes
right
in
and
it
catches,
because
the
lag
bolts
don't
have
any
threads
on
the
top
part
anyway.
A
So
drill
a
half
inch
hole
through
one
side
and
then
have
a
quarter
inch,
because
when
you
look
at
lag
bolt
specs,
you
typically
want
to
pre-drill
holes
for
lag
bolts,
otherwise,
they're
very
hard
to
get
in
I
mean
they're,
half
inch
big
mean
threads
going
through
wood.
That's
it's!
Actually
you
have
to
be
very
strong
to
well.
It
takes
takes
some
force
to
to
ratchet
that.
So
to
make
that
easier,
you
pre-drill
holes,
I
mean.
One
thing
is:
if
you
just
ratcheted
this
right
in,
you
could
probably
split
the
wood.
A
A
That's
that's
what
you
want
to
do
so
on
one
side,
so
one
panels,
one
panel
has
the
half
inch
hole.
The
other
side
has
a
quarter
inch
now.
What
does
that
also
allow
you
to
do
it
allows
you
to
locate
if
those
holes
are
drilled
precisely
then
those
will
be
alignment
holes
for
the
panels.
You
don't
have
to
guess
like
where
up
or
down
you're,
going
to
locate
the
actual
screw
through
point
before
we
just
use
screws
just
one
panel
to
the
next
and
use
screws.
A
A
So
that's
that's
the
idea
there
now
the
other
aspect.
There
was
drilling
a
one-inch
centering
hole
so
that
if
the
panel
is
all
bent
up,
you
can
put
in
a
a
one
inch
shaft,
that's
tapered,
so
you
can
force
it
in
and
you
can
force
the
two
panels
to
align
to
one
another,
even
if
like,
if
you
catch
it,
because
it's
a
point
goes
to
a
point.
A
A
A
Once
we
have
the
so
the
first
panel,
so
this
procedure
is
is
important
to
follow
it
because
we
really
need
to
do
it
otherwise,
we'll
be
like
fighting
it
and
you
move
one
end.
The
the
bottom
end
moves
you
move
the
middle,
you
know
possibly
the
top
and
bottom
move
right.
If
it's
warped
up
so
in
order
not
to
be
fighting
it,
we
have
to
follow
a
rigorous
procedure
to
make
sure
we're
uniform
and
that
procedure
also
makes
sense.
It
has
to
say
it
has
to
be
like
okay,
we're
doing
one
part
at
a
time.
A
C
A
A
A
Already
connected
to
the
bottom:
yes,
yes,
so
you're,
so
you
did
the
bottom
and
it's
already
pretty
tight
there.
It's,
because
that
that
first
lag
bolt
is
like
two
feet
up,
you're
close
to
to
good.
So
you
continue
making
it
aligned.
Yes,
okay,
cool!
Now!
What
what
next
do
we
go
to
the
middle
one
or
to
the
top
one?
A
A
So
I
would
say
now
we
have
the
middle
okay,
so
I
would
say
we
use
the
centering
hole
if
the
middle
needs
a
lot
of
help.
So
that
means
we're
not
like
trying
to
push
from
one
side
of
the
wall
and
then
the
other
side,
especially
if
you're
up
on
a
second
story
you're
on
scaffolding,
you're
trying
to
push
it,
you
gotta
really
handle
it.
You
can
put
some
force
on
to
get
aligned,
so
I
think
that
that's
where
the
centering
hole
would
come
really
useful.
A
You
just
bang
that
wedge
into
the
side
and
it
just
pinches
together
to
the
exact
right
location,
no
mystery
about
it,
otherwise,
you're
putting
a
lot
of
force
on
one
while
trying
to
pull
on
the
other.
That's
a
coordinated
effort
across
where
you
can't
see
the
other
person,
because
you
got
the
siding
on
it.
It's
a
little
difficult
to
coordinate
it's
easy
to
coordinate
if
you
just
put
that
centering
hole
in
so
this
would
need
to
happen
if
you
want
good
quality.
Like
you
know,
two
of
you
know,
like
probably
an
eighth
of
an
inch.
A
We
can
drill
the
locating
holes
for
the
well
one,
the
locating
hole,
but
the
second
is
the
black
bolt
holes.
Those
could
be
drilled
quite
precisely
to
to
say
within
an
eighth
inch.
You
can
mark
it
eighth
inch
and
then
you
can
drill
it
that
accurately,
because
we're
going
to
use
the
macro.
So
we
have
two
mag
drills
out
there.
We
can
use
that.
A
Not
to
the
bottom
there's
those
are
long
lag
bolts,
the
tip
comes
out.
You
wouldn't
be
able
to
get
a
lag
bolt
in
there.
Okay,
really
so
so
lag
bolts
are
on
the
side.
So
if
you
look
at
my
screen
for
the
bottom
of
the
pedal,
like
you
put
it
on.
A
So
screw
it
down
now
we
might
have
to
do
like
little
little
tie
plates
because
the
screw
down,
I
think
the
engineer
is
going
to
make
us
do
little
metal
tie
plates
between
that
the
sill
plate
and
the
bottom
plate,
so
we
cut
probably
get.
We
can
do
that
after
we
get
this
in
place,
but
I
think
I
think
that's
what's
going
to
be
required,
because,
right
now
the
sill
plate
is
bound
by
the
anchor
the
mud
sill
anchor
to
the
foundation,
but
the
walls
are
not
bound
to
this
to
the
sill
plate.
A
B
A
Be
an
l
shape
there
could
be
just
yeah,
l
or
just
a
plate
on
this
on
the
side
there,
spanning
across
the
the
sill
plate
and
the
bottom
plate
of
the
wall
panel.
C
A
Yeah
we've
got,
we've
got
some
of
that.
We
can
use.
A
A
A
I
said
I
told
jeff
to
to
bring
it
out
there,
so
we're
getting
ready
for
that.
Okay
use,
pre-drilled
lag
bolt
holes,
so
we
said.
A
A
Now
a
regular
impact
would
work
on
a
lot
of
panels,
but
others
you
can't
get
in
because
it's
too
tight
like
some
of
the
corner
or
window
panels,
so
bottom
line
bolt
first,
so
we
said
go
to
the
top,
because
that's
completely
flexible
and
you'll
be
able
to
move
it
back
and
forth
to
get
it
perfectly
aligned.
As
long
as
the
first
bolt
was
aligned,
the
only
discrepancy
in
the
top
bolt
is
going
to
be
back
and
forth
forward
and
backwards.
A
A
A
Well,
it's
not
not
necessarily
on
a
ladder.
It's
if
you
had
to
move
it
back
and
forth,
like
you
might
have
to
step
up
like
one
or
two
steps
on
the
ladder,
because
it's
the
bolt
itself
is
going
to
be
seven
feet.
So
it's
like
a
little
above
your
head.
So
so,
maybe,
like
you
step
up
a
couple
of
rungs
on
a
ladder.
A
Okay,
so
in
stop
install
tap
top
lag
bolt.
Second,.
A
B
A
Because
half
inch
compared
to
eight
inches
like
16
times
more
per
bolt,
now
the
weak
point,
there
is
going
to
be
the
wood
like.
So
that's
the
actual
part.
That's
that's!
I
guess
this.
The
exact
schedule
will
we'll
get
from
the
engineer
which
we
should
be
able
to
ship
that
engineering
out
in
the
next
couple
of
days,
because
basically,
what
the
engineer's
gonna
tell
you
is.
Okay,
all
your
your
structural
members
are
correct
and
then
they're
gonna
tell
you.
A
Centering
hole,
so
that's
if
needed.
So
what's
this
tapered
pin
look
like
that's,
we
might
might
have
somewhere.
We
can
make
just
basically
sharpen
sharpen
a
one-inch
shaft.
So
just
take
a.
I
think
we
might
have
one
of
these,
but
just
basically
a
well
a
pen.
A
A
A
A
Now,
if
it's,
if
there's
trouble
there,
then
we
have
to
go
to
second,
I
mean
this
should
should
solve
any
issue
in
bad
cases.
We
might
have
to
do
extra
measures
like
you
know,
push
from
either
side,
or
I
mean
you
really
need
a
handle
like
if
you,
because
there's
nothing
to
grab
onto
there's
the
studs
there.
A
A
That's
another
way
to
do
it,
each
screw,
if
you
get
it
in
like
that,
has
up
to
like
300
pounds
of
force,
so
a
screw
would
be
quite
enough
as
long
as
you
can
grab
it's
a
long
screw
and
it
actually
grabs
you
can
pull
with
a
lot
of
force
using
screws
if
yeah,
but
that's
like.
Hopefully
we
don't
have
to
do
that,
because
that
all
takes
time
you
got
to
screw
in
the
board,
then
then
get
it
all
aligned
then
put
in
a
lag
ball.
A
It's
just
more
extra
steps,
and
if
you
got
you
want
this
to
go
like
fast.
Ideally,
you
put
the
put
the
panel
next
to
each
other
screw
down.
Four
screws
at
the
bottom
put
in
the
first
lag
bolt
few
seconds
top
lag
bolt,
few
seconds
middle,
pin
or
even
just
straight
through
with
the
if
it's
aligned
do
the
middle
middle
hole.
So,
like
a
few
minutes
per
that's
the
optimal
speed
if
everything
is
working
or
if
the
team
is
all
aligned
and
on
the
same
page
I
mean
this
could
go
extremely
rapidly.
A
We've
seen
this,
I
mean
the
best
we've
seen
is
like
maybe
like
15
minutes
or
maybe
30
minutes
like
when
we
did
the
walls.
If
we
review
the
tapes
from
the
cdc
home,
one
build
took
us
a
few
hours.
I
forgot,
like
maybe
four
hours,
to
do
the
first
floor
with
a
bunch
that
was
a
bunch
of
people,
though,
like
people
working
on
multiple
corners
at
the
same
time.
So
this
can
go
very
rapidly
like
man
and
we've
got.
A
Yeah,
ideally,
but
if
we're
gonna
get
into
trouble
and
we
can
get
things
aligned,
that's
where
you
burn
all
the
time
it's
gonna
be
all
set
up.
We've
got
to
set
up
the
lasers
roll
out
the
silgat,
the
the
vinyl
flashing.
A
Well,
each
team
then
has
to
do
only
three
panels:
theoretically
right
eight
teams
of
two
people,
so
you
got
16
people
working
on
this,
but
I
mean,
if
you
got
to
do
three
panels.
A
You
know
the
minimum
like
if
it
actually
goes
together.
As
with
perfection
15
minutes
later,
you've
got
the
entire
first
floor.
I
mean
that's
as
fast
as
it
could
go.
If
you
have
a
well
worked
out
process-
and
this
is
what
makes
a
difference,
as
I
mentioned
before,
whether
it's
a
job
that
you're
making
five
dollars
an
hour
to
like
a
hundred
or
two
hundred
dollars
an
hour,
because
you're
you've
got
extreme
productivity.
A
In
that
process,
but
actually,
like
you
know,
there's
a
note
of
encouragement
if
you
think
about
okay,
there's
a
50
000
service
fee
for
that's,
that's
our
model
that
we're
saying
would
work.
Definitely
right
now
to
still
get
you
breakthrough,
cost
which
right
now
people
are
like.
How
are
you
gonna
do
that?
But
if
you
look
at
the
raw
numbers
hundred
modules
total,
let's
say
about
a
hundred
right:
well,
what's
50
000
divided
by
a
hundred,
you
can
pay
500
bucks
a
module
effectively
like
just
just
for
as
a
rough
point
of
a
reference.
A
So
I
mean
this
once
modularized
and
perfected
to
to
efficiency
this.
This
is
like
extreme
efficiency,
but
it
takes
you
extreme
time
to
get
there.
That
I
mean
that's
what
we're
witnessing
here.
You
guys
are
all
seeing
this.
It
just
doesn't
happen,
doesn't
just
happen.
It's
hard
work
and
it's
physical
work
and
it's
design
work
that
we're
really
maxing
out.
A
It
is
encouraging.
Still
that
promise
is
better.
It
looks
better
than
ever.
I
mean
I'm
more
encouraged
than
ever
that
the
numbers
that
we're
predicting
are
gonna
happen,
or
at
least
we
have
evidence
that
yeah
it
does,
because
we've
we've
built
things
before
and
now
it
should
go
faster
right
now.
The
point
that
goes
faster
is
before
we
did
overlap
of
of
the
the
house
wrap
from
one
panel
to
the
next
to
the
side.
Well,
what's
that
mean?
A
That
means
you
have
to
keep
one
side
loose
and
try
to
slip
it
under
well
we're
not
doing
that
anymore,
we're
wrapping
the
whole
panel
and
then
using
more
tape
and
a
batten
seam
to
get
rid
of
that
whole
complication.
So
now
it
can
go
really
fast,
but
yeah
the
potential
is
there
and
that
still
stands
better
than
ever.
A
A
Well,
a
little
less
than
that,
as
we
talked
about
before
right.
So
let's
talk
about
the
top
plates,
so
let's
say
we
can
do
this.
We
need
to
cover
the
top
plates
because
that's
what's
going
to
bond
it
together,
so
the
wind
doesn't
blow
it
over
and
let's
talk
about
of
the
whole
patterns
in
detail,
so
we
can
all
get
out
there
with
the
drills
and
and
drill
it
and
put
put
these
things
on
the
trailer
and
move
them
up
to
the
site.
A
To
do,
but
let's
talk
about
the
top
plate
because
that's
gonna
be
important,
so
we
make
sure
that
I
mean,
if
there's
like
a
surprise
storm
our
walls
could
fall
down.
So
you
gotta
do
things
like:
okay,
here's,
here's
the
top
plate,
that's
another
level
of
stephanie.
We
probably
want
to
leave
a
few
braces
on
the
walls
like
as
we're
going
up.
A
You
want
to
put
a
few
braces
with
stakes
into
the
ground,
so,
like
there's
a
bunch
of
stakes
out
on
the
field,
there's
still
these
two
by
two
stakes
that
you
ram
into
the
earth
and
then
long
members
like
10,
footers
or
longer
pieces
of
lumber.
We
can
go
as
cross
braces
so
that,
like
the
last
panel
we
put
in,
we
can
screw
it
into
the
side
of
the
panel
and
put
it
into
the
ground.
So
it
doesn't
fall
over
or
if
someone
trips
on
it
and
falls
over
or
something
so.
A
A
A
Yes,
now
16
feet,
we
got
to
cut
pre-cut
it
to
16
feet
because
the
16
footers
may
or
may
not
be
16
feet
so
so
cut
to
16
feet
and
that's
two
by
six.
A
C
A
A
A
A
B
A
A
A
A
They
may
not
be
10,
they
might
be
like
10
and
three
quarters,
or
12
and
1,
8
or
12,
and
a
quarter
or
something
they
can
be
up
to
like
a
little
bit
over
just
a
little
bit
over,
and
that
means
you
won't
fit
and
they're
gonna
have
to
take
it
down
and
then
measure
and
cut
it
again.
So
pre-cut
it
to
the
sides.
We
know
we're
16
by
32.
We
better
be
a
16
by
32
at
the
top.
A
A
we
are
going
to
have
an
adjustment
module
in
the
middle
of
the
walls
which
we
might
have
to
make
a
little
shorter
if
the
sill
gaskets
took
too
much
space
and
we
got
to
cut
off
like
a
half
inch,
even
a
quarter
inch
off
the
adjustment
panel,
we're
expecting
like
a
very
minor
adjustment
on
an
adjustment
panel,
but
the
top
plate
will
still
be.
Actually
it
should
be
this
right
number,
so
I
I
think
we
can
just
pre-cut
it
to.
A
A
A
A
You
basically
there
you
don't
have
to
necessarily
take
the
whole
plywood
off
just
take.
A
Take
the
screws
from
the
three
sides
keep
one
side,
so
you
don't
have
to
relocate
the
plywood
just
take
off
like
lift
up
the
plywood
a
little
bit.
All
you're
going
to
need
to
do
is
cut
off
the
plywood
just
a
little
bit
and
cut
off,
take
off
the
one
stud
and
cut
the
bottom
and
top
plate
just
a
little
bit
like
it's
a
tiny
bit.
A
Oh
no,
no,
we
shouldn't
have
forgot
about
that
adjustment
panels.
We
wanted
to
have
accessible
yeah,
so
we
got
to
take
those
staples
out
there.
Yeah
miner
yeah
we'll
basically
lift
up
the
plywood,
and
I
can
show
that
we
had
one
of
these
panels
which
showed
how
the
plywood
kind
of
just
lifted
up
a
little
bit
and-
and
we
threw
that
I
don't
know
where
what
happened
to
the
file.
A
A
A
You
just
got
to
keep
the
wall
straight
up
with
the
lasers,
you
keep
it,
keep
it
aligned
and
then
with
levels
you
can
measure
okay,
the
bubble
should
be.
You
know
laser
at
the
laser
level,
but
regular
level
should
tell
you.
A
Laser
is
probably
we'll
see
if
the
laser
works
really
well,
it
should,
if
we
can
see
the
dot,
put
a
little
piece
of
paper
next
to
the
wall
and
the
laser
shining
at
it.
You
can
see:
okay,
keep
it
like
half
inch
and
for
a
half
inch
on
an
entire
wall.
I
mean
that's
should
be
good,
should
be
good
and
then
the
top
of
the
wall
still
is
going
to
be
a
little
flexible
in
an
out.
A
A
A
Okay,
so
that's
top
plate.
Okay!
So
let's,
let's
nail
out
the
lag
bolt
pattern
and
this
this
requires
a
little
bit
of
a
tension,
because
one
side
will
have
half
inch
bolt
holes.
The
other
side
is
going
to
have
to
have
quarter
inch
bolt
holes.
B
A
A
I
was
aiming
at
one
half
inch,
so
you
don't
have
to
drive
it
in
and
because
that
part
of
the
just
do
do
a
half
inch
because
it
might
allow
you,
I
don't
know,
does
a
half
inch
bolt.
Allow
you
more
play
well,
once
you
put
the
ball
through
it.
No,
so
maybe
we
just
do
a
quarter
inch
on
both
sides
and
then
we
don't
have
to
worry
about
the
sides.
Maybe
we
just
do
that
because
the
idea
there
was
drilling
half
inch
in
one
side,
so
the
lag
ball
goes
easily.
A
That's
good,
like
I
think
I
was
prejudiced
by
thinking
that
okay,
I'm
doing
this
by
hand,
and
it
takes
a
little
bit
of
force
to
ratchet
in
so
it's
a
little
bit
of
work.
But
if
we're
using
impacts,
then
you
can
go
through
a
half
inch
hole
as
quickly
as
a
quarter
inch
hole
because
the
tool
is
doing
the
work
for
you,
so
I
think
we
can
actually
do
quarter
inch
and
simplify
the
whole
process.
I.
B
A
B
A
Yeah
you
can
but
you're
not
necessarily
looking
through
it
anyway
you're,
not
looking
through
it.
You
kind
of
have
to
trust
the
marking
at
the
phase
of
marking.
That's
where
we
have
to
impose
the
accuracy.
If
the
marking
and
drilling
that
we
do
in
the
shop
is
not
accurate,
whether
it's
a
half
inch
or
a
quarter,
it
won't
work.
A
B
A
A
Perfect,
okay,
yeah,
so
I
would
say
just
go
with
quarter
inch
because
if
you
drill
half
inch,
you
might
think
like
it's
almost
intuitive
to
think
oh
yeah.
Well,
you
have
more
adjustment,
but
you
don't
because
you're
constrained
on
a
half
inch
bolt
still
as
long
as
the
bolt
goes
in
through
the
quarter
inch
pre-drill
hole
which
it
will
then
a
half
inch
hole
is
as
good
as
a
quarter.
A
Assuming
that
you've
got
a
tool
that
you
don't
have
to
fight
the
quarter
inch
hole
because
that's
going
to
be,
it
might
be
a
little
hard
to
to
do
that.
So
it's
so
now
the
tool
is
going
to
have
to
work
harder,
that's
just
a
practical
consideration,
but
but
the
tools
should
be
able
to
do
it
now.
The
point
was
that
you
cannot
get
your
tool
in
a
tight
space
by
windows
and
doors
so
for
a
treason
like
those
bolt
holes.
A
B
With
the
windows
and
doors
because
you're,
basically
drilling
the,
what
is
it
you're
touching
from
one
side
going
along
one
way.
C
A
Exactly
that's
what
I'm
saying:
that's,
where
the
position
of
the
half
inch
versus
quarter
inch
hole,
whether
it's
one
side
or
the
other,
that
would
matter.
In
fact,
the
the
window
module
would
have
to
have
only
quarter
inch
holes,
unlike
the
other
modules
which
you
can
do
like
half
inch
on
one
side
and
quarter
inch
on
the
other.
A
A
From
the
bottom
so
make
sure
we
got
because
it
won't
be
won't
be
the
same.
If
it's,
we
don't
have
the
panel
facing
the
right
way,
so
4.5
feet
up
from
the
bottom,
which
is
not
exactly
in
the
middle,
because
it's
slightly
off
the
middle
because
we're
at
nine
feet
minus
the
three-eighths
inch
thing
so
4.58
from
the
bottom
it'll
be
close,
but
they
won't
fit.
And
then
you
have
to
just
redrill
the
hole
or
just
yeah
re-drill
and
then
go
2.5.
A
The
top
okay,
that's
it
now,
if
we
look
at
all
our
all
our
panels.
So
let's,
let's
look
at
slide
seven
here.
So
what's
it
look
like
now?
What
about
the
corners
corners
don't
apply
for
this,
so
we
gotta
pay
a
little
attention
there.
All
the
panels
are
next
to
each
other.
Yes,
you
could
have
those
bolts
as
described
all
the
holes
as
described.
A
A
Well,
where
are
you
going
to
measure
from
the
bottom
of
that?
That
has
a
piece
that's
at
the
level
of
the
sill
plate.
If
you
remember
that
that
design,
it's
got
the
bottom,
where
the
which
sits
on
top
of
the
sill
plate-
and
it's
got
the
very
bottom
which
is
lower,
which
is
actually
the
sill
play
that
goes
like
a
cut
out
cut
out
that
we
have
to
make
in
the
wall
there.
If
you
remember
that
part,
so
there
we
have
to
be,
let's
make
sure
whoever
is
doing
9,
22
and
3.
A
Make
sure
that
before
we
do
that,
let's
let's
talk
about
that
so
for
three
well
22
and
three
because
they
they're
sitting
on
top
of
the
sill
plate
like
everything
else,
it
should
be
transparent.
They
should
be
those
should
be
nine
feet
and
therefore
the
our
same
measurements.
But
it's
a
little
tricky
for
the
nine.
So
I'm
just
going
to
make
a
note.
A
A
A
A
Normal,
so
sides
should
still
be
okay,
so
we
should
still
be
able
to
measure
from
the
sides.
A
Module
3
and
22
yeah,
it
should
still
work.
The
same
pattern
should
work
for
3
and
22.
A
Okay,
what's
that
but
corners
now,
what
about
the
corners?
A
C
A
A
A
You
just
have
to
make
sure
that,
like
regarding
the
vertical
like
the
midpoint.
A
A
Can
we
measure
2.5
and
be
accurate?
Let's
do
2.5
2.5
for
accuracy,
so
that
means
it's
three
inches
of
one
end
and
on
one
side
and
2.5
from
the
other
right.
A
Why
don't
we
do
that,
then?
So
we
don't
have
to
yeah
that's
center,
so
2.75
according
to
can
we'll
do
it?
Okay,
2.75!
So.
A
A
A
Is
this
diagram
here
clear
that
that's
pretty
much
down
the
center,
so
that's,
let's
make
sure
that
it's
a
2.5
inch
2.75.
B
A
You
want
to
measure
off
the
edge
to
0.75
and
and
maybe
measure
it
off.
Both
sides
so
make
sure
it's
2.75
of
one
side
and
2.75
of
the
other
is
actually
better
because
it
might
be
slightly
off
here
and
there,
but
it's
got
the
siding
on
one
side
already.
So
it's
going
to
be
a
little
different
but
measure
when
you
measure
it
just
measure
it
from
the
wood
itself.
A
Well,
I
think
so
with
a
speed
square,
if
you
measure
2.5
from
one
side,
if
you
put
the
speed
square
on
the
other
side,
which
has
the
the
actual
siding
on
it,
you
can
pretty
much
get
it,
but
then
off
the
other
side,
it's
the
siding
is
5
8.
So
it's
a
little
a
little
different
there.
You
just
have
to
pay
attention
that
you're
2.75
off
either.
A
A
A
C
A
A
Not
trains
are
used
when,
when
the
materials
themselves,
people
can't
pick
it
up.
Typically,
here
you
can
with
a
couple
of
people.
A
A
C
A
A
A
A
A
A
A
A
A
A
Braces
yes,
do
the
braces
on
the
corners
so
that
we
locate
the
16
by
32.
Exactly
then
talk
about
braces
in
the
workshop.
A
It's
page
three,
maybe
take
a
picture
of
page
three
special
considerations:
module
nine,
maybe
either
be
careful
or
let
me
do
that.
But
you
just
gotta
understand
what
module
nine
is.
It's
got
the
bottom
plate
built
into
it.
A
So
therefore,
you're
measuring
up
the
sides
not
from
the
bottom
plate
the
door
modules
they
should
be
transparent.
That
should
be
okay.
So
maybe
we
just
eliminate
that
as
a.
A
Consideration
through
corners.
A
A
B
A
A
C
A
Plate
on
the
other
side,
yeah
yeah,
so
maybe
maybe
clamp
down
a
metal
plate
that'll
be
perhaps
the
easiest.
So
then
you
keep
the
metal
well,
the
metal
plate
is
going
to
stick
to
the
drill.
Once
you
turn
it
turn
the
magnet
on.
But
then
you
just
clamp
that
metal
plate
in
position
so
drill
right
at
the
right
place.
A
A
I
think
that's
gonna
save
us
a
lot
of
time,
so
I
would
go
forward
with
that
and
that's
just
a
one
inch
bolt
a
one.
Well
one
inch
drill
bit.
A
A
A
A
Shaft
I'll
prepare
that
that's
like
make
it.
You
know
like
six
inches
or
so
well,
you
just
we
just
need
like
three
inches
but
to
go
through
the
wall,
but
with
the
taper.
You
add
like
an
inch
so
before
then
like
five
five
or
six
inch.
A
First
of
all,
like
pay
attention
to
top
and
bottom,
I
guess
we
didn't.
We
didn't
state
that
pay
attention
to
top
and
bottom
of
panel.
It
does
matter.
C
B
A
A
I
don't
know.
Let
me
just
keep
it
simple,
especially
if,
like
the
panel
may
be
like
off
a
little
bit,
we're
measuring
uniformly
from
either
top
or
bottom.
So
we'll
know
exactly
that.
The
bottom
is
aligned
and
we'll
have
to
just
adjust
the
one
side.
If,
if
anything
is
needed-
and
I
think
we
did
have
some
issues
like,
for
example,
the
like,
for
example,
the
headers
some
of
them
were
like
instead
of
11.25,
they
were
11.5.
A
A
So
maybe
I
think,
probably
thank
to
in
terms
of
quality
control.
Just
pay
attention
maybe
take
a
take.
This
slide
take
a
picture
that
or
download
this
slide
as
your
reference,
this
one
as
well
now
braces
so
once
we
do
the
corners,
it's
most
important
quality
control.
So
it's
once
once
corners
are
installed.
A
A
A
A
So
we
should
should
be
close
to
35.8.
If
it's
off
of
that
it
means
we've
got
a
parallelogram.
We
just
gotta
try
to
work
it.
So
it's
it's
actually
35
8
across
0.8,
so
0.8
or
like
point.
A
A
A
Move
that
brace
here,
I
would
move
it
here.
Would
that
work
then
you're
fixing
the
corner,
so
it's
closer
to
the
corner.
So
this
side
here
is
going
to
get
trimmed.
So
as
long
as
you're
within
3.5
inches
of
the
corner,
those
those
screw
holes
are
going
to
get
covered
up
any
screw.
You
don't
be
putting
screw
holes
in
each
of
them
is
a
is
a
water
hole.
A
So
so,
if
you
put
that
screw
in
within
3.5
inches
of
the
edge
that's
going
to
get
covered
up
and
and
flashing
tape
on
that
too,
so
we're
gonna,
that's
gonna
get
protected,
so
it's
safe
to
put
the
brace
on
the
corner
there
and
then
the
other
brace
at
a
right
angle
to
it.
90
degrees.
To
that
so
you'd
go
like
this
here.
A
Can
you
kind
of
picture
that
and
the
stake
in
the
ground
is
so
it's
a
two
by
two
stake
that
goes
in
the
ground.
A
A
Of
edge
of
corner,
that's
going
to
get
trimmed
up
and
water
sealed
later
there's
going
to
be
trim
and
butyl
tape,
which
is
for
waterproofing.
So
once
we
put
the
trim
in
underneath,
the
trim
is
going
to
be
build
tapes
which
is
self-sealing
anything
to
get
pokes
through
it
seals
around
the
screw
or
nail.
A
Stakes
screw
it
in
so
that's
you
ram
that
with
a
hammer,
heavy
hammer,
a
regular
hammer
they're
in
stiff,
you
can't
move
this
thing
around
at
this
point.
It
just
becomes
stiff.
A
C
A
We
covered
braces,
we
covered
top
plate
and
location
of
the
the
lag
bolt
holes.
Mag
drills
are
used
to
drill.
C
A
A
A
We
have
two
lasers
that
shoot
in
two
directions
and
four
lasers
that
shoot
in
one
direction,
but
they're
self-aligning,
so
they
they
get
you
the
plane,
the
vertical
plane
or
the
horizontal
plane.
We
don't
need
horizontal
planes
here
at
this
point,
just
the
vertical
planes
at
a
right
angle
to
each
other.
So
if
you,
if
you
fix
two
corners
with
two
lasers,
it
guarantees
that
you're
going
in
the
correct
direction,
but
to
set
it
up
you
I
mean
you
got
to
set
it
up.
So
it's
exactly
along.
A
I
mean
the
setup
is
what's
going
to
take
all
the
time
here,
set
up
the
lasers,
so
gasket
yeah
set
up
on
the
site
carrying
everything
over
and
then
setting
it
up.
So
a
little
laser
goes
on
top.
A
A
C
A
A
Now,
how
do
you
attach
that,
once
the
you
have
a
flat
wall?
Where
do
you
attach
to
you'd
have
to
screw
in
a
block
and
then
attach
to
that
block
once
again
screw
in
a
block
within
a
3.5
inches
or
like
basically
within
the
batten
distance
like
within
a
couple
of
inches
of
the
edge
so
that
it
gets
covered
by
battens
and
by
the
water
sealing
tape
it's
at
the
seam?
A
A
B
B
Shop,
I'm
gonna
finish
installation
and
wrapping
on
the
module
and
then
set
up
the
mag
fills
through
all
the
holes,
move
them
onto
the
trailer
yep
set
up
tomorrow.
A
Yeah,
if
we
can
get
this
all
yeah
I
mean,
hopefully
we
can
get
those
panels
up
and
get
get.
This
thing
start
starting
the
install
today
we
could
do
that.
It
seems.
A
Well,
we
got
to
finish:
oh
you
like
before
we
finish
the
other
modules.
Oh
no,
I
mean
go
to
the
workshop
yeah
yeah.
No,
no
yeah
we're
going
we're
going
right
in
let's
go
right
in
yep.