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From YouTube: Summer X Class - Day 9 - Carport
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A
Partying,
okay,
so
welcome
to
day
number
nine.
So
this
is
day
number
nine
and
the
house
is
standing
up
there.
Looking
at
the
videotape
just
a
little
bit
over
the
last
last
two
days,
it's
pretty
cool.
What
what's
happened.
I
want
to
make
sure
I'm
recording
this
yeah,
I'm
recording
this.
So
two
days
ago
we
were
still
finishing
up
the
modules,
including
windows.
So
this
is
our
stack
from
the
recent
history
of
two
days
ago.
A
Still
going
at
it
some,
I
guess
some
more
window
modules,
so
we
finished
those
basically
with
a
36
inch
rough
opening.
We
built
four
of
those
which
were
some
of
the
last
missing
modules,
as
well
as
the
co
actually
corners.
We
had
missing
after
day
seven,
which
in
day
eight
actually
wait
was
that
day,
eight
in
the
morning
that
we
I'm
getting
lost
and.
A
A
Yeah
so
day,
seven,
that's
how
the
window
goes
in
you,
so
just
to
review
that
process.
If
you're
gonna
be
building
this,
because
this
is
pretty
much
all
that
you
need
for
the
people
who
haven't
done
that
it's
it's
useful
to
go
through
some
of
the
steps
so
you've
got
the
plywood
inserted.
You've
got
the
frame.
You've
got
the
headers
screwed
on
now
we
put
the
house
wrap
on
just
to
get
around
the
detail
of
where
the
window
goes
in,
we
cut
out
the
square
we
stapled
it.
A
We
put
flashing
corners
on
the
bottom,
where
water
can
get
into
the
window.
So
that's
that's
a
pretty
much
a
dangerous
point.
You
cut
the
house
wrap
at
the
very
top,
because
you
don't
want
the
house
wrap
to
wick
water
underneath
at
the
top,
and
then
we
install
the
window
screwed
it
down
put
some
protection
on
it,
just
just
so
it
doesn't
break
and
then
we
repeated
that
had
some
issues
and
here,
first
of
all,
you
see
that's
upside
down.
A
So
there's
an
upside
down
bottom
up
here
you
see
it's
sticking
out
quite
a
bit.
It
should
actually
be
inside.
So
there
is
upside
down
front
and
back
to
the
windows
that
you
have
to
pay
attention
to
here's,
some
action
with
rollers,
getting
the
tape
so
kind
of
missed
that
we
put
tape
on
it's
self-sealing
tape.
It's
butyl
tape,
where,
if
you
puncture
through
the
what
is
it
called
the
lip
the?
A
What
is
that
thing
called
the
the
the
flange.
C
A
So
you
put
the
tape
wherever
the
flange
pokes
through,
where
you
screw
it
down.
You
you
screw
through
the
both
the
house,
wrap
and
the
tape.
So
it's
supposed
to
be
self
healing
that
it
wraps
around
the
screw
and
you
don't
get
moisture
so
then
we
took
out
to
start
taking
out
stuff
to
the
side.
This
is
where
still
people
were,
I
think,
making
the
four
corner
modules
on
day.
Eight
seven.
I
think
sorry,
seven,
I
don't
know.
A
Seven,
I
think
this
was
seven,
so
we
kind
of
that's
the
corner,
module
time
where
we
spent
a
bunch
of
the
morning
there,
okay,
but
right
after
that,
we
got
up
on
to
the
roof.
To
start
installing
so
took
out,
the
tractor
got
the
p
some
people
up
there
very
easy
with
the
tractor.
You
just
bump
it
up
there
and
pretty
much
even
without
holding
it.
You
can
slide
the.
If
you
have
a
smooth
side
here,
you
can
actually
slide
the
module
way
off
and
pretty
much
kind
of
like
even
falls
over.
A
You
don't
even
have
to
do
anything.
If
you
have
a
loader
like
that
or
people,
it
would
take
a
few
people
to
get
it
do
the
equivalent
of
the
tractor
there,
but
we
put
that
up
there.
What
are
some
of
the
comments
on
working
on
the
second
floor,
I
think
definitely
people
are.
I
saw
that
teams
were
more
like
six
or
seven
people
to
make
sure
that
the
modules
don't
fall
over.
B
A
Yeah,
so
this
one
went
up
relatively
smoothly.
The
thing
that
we
were
fighting
there
was
actually
back
from
the
bottom
of
the
bottom
foundation,
where
we
have
a
large
pad
that
wasn't
necessarily
all
even
so.
Some
of
the
modules
were
a
little
bit
uneven.
We
shimmed
them
up
got
things
square.
We
we
keep
using
the
braces.
The
braces
are
important
because
until
the
roof
is
capped,
this
is
pretty
flexible.
B
Oh
yeah,
here
once
when
I
was
pushing
it
up,
I
stuck
the
module
in
the
top
of
the
door.
A
A
Eight
thousand
pounds
about
four
tons
yeah.
Those
are
you
see.
The
cylinders
move
very
slowly,
they're,
pretty
large
they're
four
inch,
so
they're
quite
forceful,
so
here
now
we're
at
the
top.
Now
that
was
day
day,
eight
now,
by
the
way
the
8
000
like
if
you're
trying
to
lift
something
on
the
ground,
I
mean
the
back
would
pull
out
before
you
lift.
F
A
So
you
have
some
safety,
but
we
do
have
like
2000
pounds
of
weight
on
the
back,
so
there's
quite
a
bit
of
weight
on
it,
so
you
probably
probably
lift
like
maybe
up
to
4
000
or
something
before
you
look
start
lifting
up.
A
A
And
what
are
the
next
steps
after
that?
So
first
thing
we
got
up.
There
is
some
of
the
top
plates
started
going
on.
We
had
a
bunch
of
scraps
of
two
by
six,
so
we
just
did
it
so
making
sure
that
we
never
end
up,
like
you
know
like
right.
There
you're
ending
up
at
the
middle
of
the
module
with
brian
there,
not
on
any
of
the
seams,
so
we're
just
trying
to
now
that's
a
little
close
to
the
seam
there,
but
it
shouldn't
be
that
yeah,
okay!
Well,
no.
D
E
E
A
So
we
had
like
little
gaps
here
and
there,
but
overall
for
this
practice
build
in
terms
of
a
learning
experience
that
doesn't
doesn't
affect
it.
It
would
affect
things
like
like
air
penetration
and
strength.
Yes,
like
if
you're
talking
about
extreme
events,
let's
say
like
90
mile
an
hour,
winds
and
stuff.
You
know
you
might
be
concerned
about
that.
We
didn't
use
hurricane
ties.
We
do
have
hurricane
ties
that
we
would
typically
put
on
so
now.
A
A
A
Okay,
first
one's
coming
up,
so
I
saw
that
the
joists
get
lifted
up
first,
one
okay,
there
so
we're
at
about
10
39,
because
I
want
to
actually
remember
that
10
39.
A
So
it's
okay,
but
the
weight
of
the
of
the
joist
is
actually
it's
laying
on
top
of
the
walls.
That's
the
load-bearing
part
as
far
as
just
attaching
them
in
the
interim
you're,
attaching
through
the
plywood
on
the
outside,
through
through
the
edge
joists
into
the
into
these.
And
after
that.
So
after
say
you
got
the
first
joist
coming
up
there.
You
would
have
the
hurricane
tie,
which
is
this
piece
of
metal
that
ties
each
of
the
joists
down
to
the
walls.
We
didn't
do
that.
We
don't
have
that
here.
A
But
I
mean
they
come
right
up
I
mean
you
can
have
we
had
like
two
teams
moving
them
up.
You
could
have
three
four
five
teams.
If
you
have
enough
ladders,
it's
a
question
of
ladders
and
people
as
soon
as
we
had
a
few
joists
hey.
Let's
get
that
plywood
up
there,
no
need
to
wait
just
get
it
right
up.
There
fix
the
first
one.
The
proper
procedure
is
to
do
this,
one
all
the
way
to
the
end,
keep
along
the
mid
marked
line
which
we
had
up
there.
A
A
A
B
C
A
A
A
three
hours,
28
minutes
to
get
the
joists
up
and
the
sheeting
on
top.
That's
quite
good!
So
we
take
that
number
and
I
would
actually
say
that's
a
good
data
point.
So.
A
A
A
So
we
save
that,
so
it's
a
good
data
point,
hey
good
to
know.
A
Just
to
do
that
in
a
second,
I
know
any
other
comments
from
yesterday.
What
do
we
learn
definitely
helps
when
you've
got
the
whole
crew
up
there,
so
we
got
everybody
up
there.
Penny
was
up
there,
give
your
personal
invitation
and
screwing
that
off
screwing
all
the
wood
off
that
a
lot
of
people
can
be
up
there.
Roof
can
hold
us,
so
it's
like
if
we
had
20
30
people.
We
could
just
do
that
and
you
know
shrink
that
even
further,
if
you
have
enough
drills-
and
you
know,
but.
A
G
H
A
C
A
B
I
think
the
quickest
way
to
do
it
would
be
to
have
two
or
four
starting
to
place
plywood
with
just
four
screws
across
the
whole
building
yeah
and
that
team
behind
let's
go
seeing
all
the
little
ones,
so
you
can
fit
more
and
more
people
as
the
plywood.
G
D
D
C
C
A
So,
as
far
as
the
plywood
the
procedure
there,
yes,
we
can
do
like
first
sheet
along
the
midline
four
screws
into
a
corner
and
then
mark
every
two
feet
make
sure
you
get
a
screw
in
there
so
that
to
either
side
you
can
do
everything,
there's
two
pieces
that
are
cut
into
half.
So
you
stagger
the
whole
pattern.
A
So
there's
two
full
rows
of
sheets
of
eight
footers
and
two
rows
where
the
end
pieces
are
four
by
fours,
but
that's
pretty
good.
That
goes
pretty
fast
and
nothing
major.
The
other
thing
that
if
you're
doing
this
in
a
real
build,
the
the
plywood
clips
would
be
useful
here
to
span
the
space
in
between
the
joists
wherever
the.
A
So
wherever
you
have
the
space,
you
can't
see
it,
but
in
between
two
joists,
where
the
edge
of
the
plywood
lies,
those
two
pieces
of
plywood
should
be
connected
through
these
plywood
clips.
Do
people
know
how
they
look.
A
A
We
also
have
this,
which
have
this
kind
of
lip,
so
it's
easier
to
get
the
plywood
in
there
and
these
are
less
aesthetic,
if
you
say
they're
in
your
ceiling,
if
you're
looking
at
them
but
they're
easier
to
install.
But
probably
if
it's
plastic-
it's
not
going
to
be
as
strong,
I
mean.
What's
the
psi
of
plastic,
it's
around
the
5000
mark
metal
is
50
000..
So
if
you
have
a
comparable
width
comparable
thickness,
maybe
this
is
like
twice
or
something
thicker
than
the
metal
ones.
You're
still
like
five
times
less
strength
on
that.
A
So
over
time
you
might
how
fast
sure
how
every
every
bay
so
every
two
feet,
just
one
per
bay
between
the
joists
so
moving
right
along.
So
let's
so
now,
the
last
remaining
parts
of
this
build
before
we
go
to
the
interior
finishing
is
the
carport
and
the
siding.
So
let's
talk
about
the
carport
today
and
siding
tomorrow,
so
siding
is
cement,
siding,
which
will
which
has
special
connectors
and
special
finishing
detail:
z,
flashing,
caulk
and
battens,
and
things
like
that.
A
We'll
we'll
go
all
through
all
that
tomorrow,
but
today
is
a
good
exercise
in
kind
of
summarizing
a
lot
of
the
different
techniques
we
learned
because
to
build.
The
carport
requires
a
lot
of
the
skills,
it's
kind
of
a
synthesis
of
many
of
the
skills.
It's
a
it's
a
16
by
16,
build
right
next
to
the
house.
A
It's
not
a
garage
because
it's
actually
open
on
both
sides
and
the
consideration
for
that
is
it's
really
the
safety
of.
If
you
have
a
closed
structure
as
a
garage
where
you
can
have
vapors
such
as
gasoline
buildup,
that's
that's
got
some
certain
other
safety
provisions
like
a
little
bit
more
firewall,
prevent
protection
between
the
house
and
the
car
and
the
garage.
Here's
a
carport.
So
we
get
away
with
codes
for
decks.
It's
literally
a
covered
deck.
A
A
A
So,
that's
that's
how
it
looks
in
progress
here,
but
that's
that's
the
carport.
We
actually
have
posts
and
then
you
see
the
epdm
getting
covered
there
right
there,
but
in
this
case,
so
the
posts
are
pretty
hard
to
do.
You
have
to
dig
into
the
ground.
We
didn't
have
a
it's
just
earth
there
around
the
house.
Here
we
have
a
foundation,
so
we
don't
have
to
do
the
posts.
A
very
simple
way
to
do
this.
A
If
you
have
a
foundation
like
we
do
right
now,
would
be
just
to
frame
up
for
four
wall
modules
on
the
end,
so
the
posts
are
quite
a
bit
harder
because
you
got
to
get
them
right
in
the
right
spot.
They
have
to
be
the
right
height
and
all
that,
so
you
have
to
do
a
lot
of
adjustment.
It's
a
lot
of
free
form
adjustment
where
you
have
to
get
your
diagonal
exactly
squared
to
start
in
the
right
position
and
the
posts
are
six
by
sixes.
A
A
See
we're
not
going
to
have,
we
don't
need
the
posts.
These
are
actually
not
structural
posts
they're
there,
for
so
we
can
actually
mount
the
doors
and
and
sheeting
around
that,
so
we
don't
need
those,
but
what
we
do
have
in
in
today's
build
that's
kind
of
cool.
We
can
say:
oh
wow,
we're
going
to
build
a
carport
today.
That's
pretty
good,
typically
it'll.
Take
you
much
longer
than
a
day,
but
we
can
probably
very
likely
do
that
all
not
have
a
problem
to
do
that
all
today.
A
So
what's
it
take,
there's
a
bunch
of
different
things.
What
happens?
Let's?
Maybe
let's
open
this
dock
up
for
everybody,
so
we
can
have
teams,
maybe
work
on
different
things
you
can
find
and
edit
editors.
So
if
you
get
into
this
doc,
it's
in
the
email
I
sent
today
or
let
me
put
it
into
the
chat
as
well-
of
the
zoom.
A
A
If
we
do
them,
they'll
have
a
slight
slope
from
the
if
we
put
them
on
the
ground,
they'll
have
a
very
slight
slope
of
1.5
inches
from
the
house
itself.
If
we
put
the
so
there's
a
ledger,
how
do
you
hang
this?
This
carport?
It's
a
bunch
of
joists
they're
hanging.
So
this
is,
you
know,
say:
that's
the
house,
bunch
of
joists
against
the
house
on
a
ledger
board
that
ledger
board
is
screwed
in
with
lag
bolts
or
screws
more
screws.
A
If
you
don't
have
lag
bolts,
black
bolt
pattern
is
about
every
eight
11
inches.
You
put
a
half
inch
lag
bolt
that
goes
into
the
framing
of
the
house,
which
we're
actually
connecting
it
to
where
the
floor
structure
of
the
first
floor
is
so
you've
got
meat.
There
you've
got
the
framing
of
the
house
there.
So
there's
joist
construction
standard
joists
that
we
have
a
lot
of
experience
with
already
on
the
on
the
ceiling
on
both
the
floor
floor
and
roof
platforms.
A
You
start
out
with
squaring
a
structure.
You
still
have
to
start
square,
so
you're
not
just
putting
your
your
wall
modules
up
in
a
random
position.
It
would
be
a
good
exercise
to
say:
okay,
this
is
exactly
where
they
have
to
be
by
the
corner:
the
corner,
that's
16
and
16
feet
away.
You
can
measure
the
diagonal
so
that
you
can
do
that.
But
let's,
let's
actually
do
that.
A
A
So
that's
just
the
only
difference,
not
every
24
inches,
but
every
16
inches
for
the
for
the
vertical
studs
four
simple
ones.
Few
minutes,
don't
don't
need
sheathing
on
that,
so
you're
going
to
start
by
squaring
a
structure
when
we
screw.
When
we
put
in
a
structure
there,
we
can
use
screw
anchors,
we
haven't
done
them
for
the
house.
A
I
mean
we
don't
have
to
right
now,
but
we
should
practice
that
so
screw
anchors.
You
got
to
actually
drill
into
the
concrete,
so
you
go.
You
drill
a
hole
through
the
wood
and
then
continue
with
a
masonry
bit
into
the
concrete
screw
anchors.
We
have
our,
I
think,
like
six
inches
or
something
like
that.
So
well,
we
got
to
do
that
screw
anchors.
Oh
wait!
Yeah!
You.
A
C
A
You
should
do
a
sill
plate
to
get
everything
aligned
so
that
they're,
not
they're,
not
curved,
still
played.
If
you
do
the
sill
plate,
then
we're
gonna
be
for
the
top
of
this
platform.
We're
gonna
be
flat.
Yeah,
that's
the
only
difference.
We
can
do
it
flat.
We
don't
care
about,
like
typically
you'd
want
to
have
a
four
inch
slope
over
that,
so
we
can
cut
them
off.
F
C
F
A
Yeah,
if
we
don't,
if
we
use
pre-cut
studs,
that
are
nine
foot,
we're
going
to
have
a
flat
flat
surface,
you
can
do
that.
You
can
cut
them
down.
What
do
we
do
if
we
have
pre-cuts,
we
could
save
them
and
just
say
we
do
it
flat.
If
we
have
other
material,
then
we
can
cut
it
to
so
it's
sloped
down
by
like
one
and
a
half
it
should
be.
A
The
official
slope
that
you
want
most
is
four
inches
over
that
16,
which
is
two
percent
slope,
which
is
plenty
so
you
don't
get
water
pooling
there
and
it
dries
off
quickly
after
rains.
So
logan.
A
A
Currently
we
have
you,
have
the
ninth?
You
you
have
one
sill
plate,
you've
got
the
frame.
You've
got
the
top
plate.
You've
got
the
second,
the
second
story.
There
I
mean
we
can
do
it
that
you
just
raise
that
an
inch
or
two
there.
A
The
detail
for
the
door
will
not
work
out
at
that
point,
though,
because
you
want
to
be
a
little
below
the
door
so
that
you
don't
get
water
into
the
door,
so
you
want
to
be
like
you
know
like
an
inch
and
a
half
or
something
below
the
door,
which
means
that
if
we
did
use
the
pre-cut
studs
like
we
are
right
now,
we'd
actually
have
an
upward
slope
by
1.5
inches.
A
So
since,
since
this
is
an
experimental
structure,
we
can
raise
the
ledger
board
if
we
want
to
or
just
cut
down
the
the
thing
to
do
would
be
to
cut
down
the
joists.
Sorry,
the
the
framed
modules
which
one
do
we
want
to
do
so
we
we
don't
like
turn
that
into
a
major
discussion.
A
G
E
A
A
A
A
A
A
A
So,
what's
four
models,
we
need
four
modules.
A
16
inches
means
you
got
four.
So
what's
what's
each
wall
module,
look
like
it
looks
like
this
there's
four
and
then
you
get
top
and
bottom
plate.
So
you
need
another
eight
foot
so
take.
C
A
We
need
four
of
these
100
foot,
studs,
four
foot
top
and
bottom.
A
F
G
B
A
Carport
door:
we
can
do
it,
we
we
can
do
it,
but
we're
not
we're
we're
talking
mostly
about
getting
the
structure
up
as
a
deck
and
then
those
things
are.
We
can
fit
those
things
in
they're,
not
structural
pieces,
so
we
can
fit
that
in
later.
I'm
not
sure
how
important
is
whether
we're
going
to
get
to
it
today,
but
that
those
are
all
non-structural.
So
we
can
fit
that
after
we've
got
all
the
joists
you
attach
to
that.
B
A
C
A
Yeah,
so
this
is
a
mirroring
the
interior
wall
modules
of
the
house.
The
interior
wall
modules
are
two
by
fours,
so
so
then
we're
gonna
have
a
sill
plate,
so
the
sill
light
is
going
to
be
how
long.
C
Yeah
also,
we
have
we
have
if
you
guys
wanted
to
break
down
the
scaffolding,
I
think
we
got
most
of
it
right
there.
A
A
F
C
A
A
A
Drill,
I
think
we
have
a
couple
of
these
in
the
shelves
so.
A
We
got
two
bits,
so
two
people
can
go
at
it,
but
first
you
gotta
pre-drill
a
hole.
That's
a
little
larger,
like
maybe
like
five-eighths
through
the
wood,
so
that
the
flutes
of
the
anchor
don't
go
through
it.
So,
let's
see
red
devil
anchors,
I
think
that's
what
we.
F
E
F
A
Yeah
the
code,
so
these
are
it
you
would
go
to
red
head.
Okay,
things
like
this.
We've
got
something
like
this:
the
code
would
okay.
Let's
look
at
simpson
simpson,
screw
anchor.
That
will
give
you
the
numbers.
A
A
F
A
I
don't
know
which
table
it
is
here,
but
it
would
be
like
each
one
of
those
we
had
a
rough
calculation
that
they're
eight
thousand
pounds
of
strength.
Oh
each
okay,
each
based
on
a
flute
overall
surface
area
of
all
the
flutes
going
into
4000
psi
concrete
we
calculated
was
about
two
two
square
inches
of
surface
area
on
the
threads
over
the
entire
length
times.
Four
thousand
psi.
So
you
get
rough
rough
calculation
of
8
000,
which
I
think
it
kind
of
actually
met
what
the
actual
number
was.
A
A
You
would
put
them
where
well,
no,
where
do
they
go
so.
A
See
if
you
need
more,
but
I
mean
four
for
these-
I
mean
this
is
just
for
us
to
practice.
It
probably
like
if
this
were
for
real.
It
might
be
this.
H
A
A
Before
the
carport
okay,
we
got
to
do
that.
Let's
get
at
least
the
first
layer
up,
okay
or
the
side
wall.
What's
the
logic
behind
that
insulation
or.
C
A
A
If
you
want
to
pipe
in
to
explain
to
us
why
the
house
wrap
goes
in
if
the
siding
goes
after,
we
said
the
sighting
goes
after
because
we
can
work
around.
But
to
me
it
would
be
like
deciding
what
I
would
want
to
be
in
the
first
two.
However,
if
you
put
the
siding
and
then
you
don't
have
a
as
good
a
connection
to
the
ledger,
because
it's
got
a
little
bit
of
extra
length
to
go
through,
maybe
that's
that's
the
reason.
C
A
A
A
A
E
A
A
So
this
is
collaborative
doc
editing,
so
we
want
to
get
a
16
measurement
from
the
let's
call
it
from
the
framing,
which
means
that
if
we
do
exactly
16-
and
we
have
a
ledger-
that
our
carport
joists
will
end
up
an
inch
or
so
away
from
the
house
which
that's
cool-
that's
well,
we,
in
which
case
we
do.
We
care
not
really
so
make
this
16
by
16.
So
we
start
out
well
on
the
foundation.
A
A
A
And
we
we
are
repeating
ourselves,
we
actually
went
through
this.
We
have
this
dock.
Actually,
in,
let's
see
we
had
120
design
lessons.
We
have.
C
A
A
A
A
Let's
just
maybe
use
since
we
we
don't
know
where
the
sheeting
ends
just
go
measure
from
the
sheeting,
since
this
is
an
exercise
just
go
from
the
sheeting
to
because
you
have
to.
This
is
many
little
details
that,
at
the
end
of
the
day,
people
get
confused,
but
to
make
things
simple,
maybe
just
measure
right
off
the
siding
so
that
we
don't
have
to
subtract
that
half
inch
for
the
siding
makes
it
a
little
easier
just
on
the
side.
So.
A
A
C
A
A
A
There,
like
so
I'm
gonna,
borrow
this
arc
here.
A
Mark
that
thing
there,
because
we
don't
know
once
again,
we
don't
know
where
that
is
so,
do
the
same
on
the
other
side,
so
the
other
side
actually
has
been
shown
so
the
arc
is
there
already,
in
fact,
maybe
we
should
point
to
that,
since
that's
all
ready
for
us
so
mark
that
arc
there.
A
A
Well,
no!
No!
No!
No!
You
don't
even
that
that
you
actually
this
one
is
actually
going
to
be
redundant.
We
know
the
16
on
this
one
edge
here,
we're
going
to
measure
16
here
and
that
triangle
is
going
to
be
that
intersection.
Okay,
we
kind
of
move
that
can
somebody
move
that
move
that
point,
but
where
those
two
arcs
intersect
is
exactly
where
that
corner
is
going
to
be
and
do
that
for
that
one
corner
and
for
the
second
corner
so
can?
Can
you
remember
that.
A
A
A
A
E
A
A
So
we're
gonna
get.
This
is
good
and
yeah
continue
on
page
three,
maybe
put
in
some
more
detail
there,
but
here
we're
gonna
go
to
the
ledger.
So
now
the
house.
A
Treated,
I
mean
it's
yeah
because
we
have
the
epdm
on
top
this.
Well,
this
one
does
kind
of
hang
out
to
the
edge
so
yeah
you
probably
want
to
treat
it,
but
we
said
kind
of
like
definitely
make
the
ones
that
are
on
the
very
outside
treated
the
ones
that
are
actually
inside
they're,
probably
okay,
if
they're
not
because
they're
not
getting
any
wetness
like
as
in
rain,
so
treated
catharina
says
so
do
treated.
A
A
A
Okay,
but
but
yeah,
but.
A
No,
it's
a
16.,
you
know
16.,
I
would
say,
because
we
have
the
only
reason
why
we
said
is
so:
let's
look
at
what
joyce's
hangers
are
and
there's
a
thing
called
an
inside
joist
hanger
for
the
edge
we
we
don't
have
those
we
got
a
bunch
of
these
regular
ones
in
set.
C
A
A
Flange
joist
hanger,
it's
not
coming
out.
It's
got
a
line
break
in
there.
A
A
E
A
Do
it
put
it
an
inch
within
so
we
actually
can
actually
use
the
regular
one.
So
if
we
mark
this,
it's
not
not
a
big
deal
there.
So
two
inch
on
two
foot
on
center,
except
the
first
one,
is
in
set
an
inch
yeah
so
ledger.
A
B
C
G
A
A
A
A
A
B
That
gonna
end
up
being
an
even
number
or
like
evenly
spaced,
given
the
full
length
of
this
it's
16
feet
and
then
you
go
running
and
then
everything.
A
Right
so
that
means
that's
a
break
in
that.
So
that's
a
long
ledger!
It's
continuing
here
and
every
two
feet.
B
Side
question:
when
you
screw
in
the
wall
modules
like
we're
already
done,
there's
a
point
to
making
those
staggered
as
well
right
rather
than
in
the
street.
You
only
got
that
much.
B
C
A
A
B
H
G
It's
got
to
be
at
least
12
inches
or
whatever
the
width
of
the
joists
are
plus
what
two
inches.
Whatever
you
want,
your
drop.
A
B
B
A
A
A
But
okay,
all
I'm
asking
is
what
I'm
asking
is.
A
That
little
distance,
which.
C
F
C
A
normal,
a
normal
one,
I
do
at
four
inches
at
a
maximum,
for
where
downward
step
is
most
comfortable
for
people.
I
don't
know
if
that's
relation
to
what's
safe
or
the
slope
that
we
want
yeah.
E
G
G
A
Yeah,
you
don't
want
to
make
it
too
low.
You
want
to
hit
the
the
first
floor
platform
on
the
house.
You
want
to
hit
into
the
edge
the
rim
joist
or
edge
joist.
So
behind
this
is
another
structure,
a
2
by
12
for
the
floor,
so
you
want
to
be
around
close
to
it.
So,
but
you
want
enough
downfall,
so
you
don't
get
water
in
the
door
so
inch
and
a
half
just
minimum
after
the
sheathing
on
a
you're
going
to
be
an
inch
above
it
wow
right.
So
that's
fine!.
E
A
There's
a
slope
which
is
not
reflected
in
the
ledger:
that's
when
you
go
away
from
the
ledger.
Okay,
so
that's
the
ledger.
A
C
The
rim
joists
are
going
to
be
one
component
that
will
be
holding
some
basic
well
with
the
mask.
We.
A
A
A
A
A
A
A
A
A
C
A
C
C
No,
I
meant
from
the
inside
when
you're
looking.
B
G
A
A
A
A
A
A
So
we're
going
to
draw
these.
This
is
not
to
perspective,
but
steak
plus.
A
A
Three
probably
is
okay,
one
and
then
yeah,
something
like
that.
If
we
feel
it's
add
four,
if
you
feel
it's
unstable,
but
that
should
be
pretty
stable
there.
Oh,
what
do
we
forget
about
the
wall
modules
put
a
top
plate
on
them
to
bond
them
together,
so
none
of
them
are
yeah
so
step
one.
A
A
And
a
half
to
make
this
proper
module,
you
should
go
from
a
hundred
to
98.5.
A
A
And
here's
where
you
could
also
try
to
say
we
get
a
bunch
of
people
putting
a
section
of
four
walls
up
at
one
time.
You
can
do
that
that
gets
into
standard
construction
techniques.
Here
we
typically
we
like
to
do
one
module
at
a
time
and
then
then
do
it,
which
one
do
we
want
to
do
here,
a
little
individual
one
by
one
or
tilt
them
all
up,
which
means
that
you're
putting
the
top
plate
on
on
the
ground.
A
E
A
We'll
take
the
picture
with
it
in
there:
okay,
before
so
add
top
plate,
while
on
the
ground
well
so
say,
lay
four
lay
four
walls.
Next
to
each
other.
A
That
gets
us
practicing
standard
construction,
brace
wall
modules,
plumb
them
they
might
have
to
rack
them
from
side
to
side
now
ground
zero
here
is
we
have
so
I'm
gonna
emphasize
this
one
little
point
here
which
which
is
gonna,
save
us
from
like
lots
of
fumbling
around,
and
that
is
what
we
got,
that
we've
got
that
mark
that
magical
mark
that
we
actually
calculate
it's
gonna
be
exactly
there
and
the
other
one.
On
the
other
side,
it
will
be
there.
A
G
H
A
A
Has
to
have
some
kind
of
a
support
before
in
the
house.
We
have
the
osb
service
that
support.
G
B
A
Over
there
you
would
have
you
still
have
the
joist
hangers
on
that
side
as
well.
A
So
after
the
joist
hangers,
if
you
have
that
wall
section
there,
then
you
would
want
to
have
hurricane
ties
there.
So
we
can
use
a
few
hurricane
ties.
So,
let's
put
in
a
few
hurricane
ties.
So
so
after
that
we
said,
the
ledger
is
probably
done
like.
That
could
be
a
parallel
piece,
but
here
so
let's
say
the
ledger:
put
it
fill
it
green
because
it's
already
done.
A
A
I'm
just
thinking
about
how
do
you
parallel
stuff,
so
we're
not
completely
bottlenecked
by
the
fact
that
we
got
to
get
that
end
joist
the
wall
stand
well,
I
would
say.
A
Ledger
is
the
part
that
takes
time
is
what
marking.
B
We
can
mark
and
place
the
enjoys
while
the
wall
modules
are
laying
down
right
yeah.
We
can
add
that
step.
A
A
A
G
A
B
F
A
A
H
A
A
To
review
three
main
things
that
happen
here,
gentlemen,
control,
z,
three
main
things
that
are
happening
here
is
square.
That
structure.
C
B
Empty
all
right
is
it
getting
made
like
do
any
flashing
on
top
of
the
staples
yeah?
Do
we
need
flashing.
E
C
A
C
If
somebody
wants
to
volunteer
for
that
we're
gonna
go
we're
gonna
need
a
separate
cutter
for
two
buys
while
they're
doing
the
leverage.
So
let
me
just
get
all
those
pre-cut
well.
C
A
C
I
could
be
into
we're
me
and
trisha
will
be
doing
the
wood
pirating
first,
but
we
can
bring
in
the
framing
if
we
get
another
cutting
team
on
two
buys
so
they're
just
crap
after
we
get
back
with
all
of
it.
A
The
height
of
the
ledger
under
the
door
so.
C
C
They
could
start
it
from
that
that
joyce
wall
too,
you
know
I
mean
just
so
that
they're
not
going
up
the
whatever
what
we're
working
on
you
know
I
mean,
and
that
way
we
can
just.
A
F
B
B
We
have
those
nine
feet,
something.
B
G
H
A
F
A
A
I
A
A
H
A
G
B
Yep,
we
don't
have
a
team
on
on
still
play
and
drilling
concrete,
there's
also.
C
F
A
So
play
just
that's
after
marking,
so
you
gotta
mark
it
after
you
got
the
mark.
You
can
get
the
silver
plate
right
in
so
maybe.
C
G
F
A
B
A
B
How
do
we
place
the
correct
amount
of
rim
joists
so
should
we
make
that
calculation?
How
many
we
need?
We
said:
nine,
okay,.
B
C
Or
sixteen
you
mean
on
these
edges,
yeah
front
and
back
and.
A
A
C
C
These
two
that
are
16
are
they
just
to
be
on
they're
they're.
Obviously,
the
width
they're,
not
okay,.
E
B
B
A
A
C
A
A
C
B
I
have
a
question
yeah.
A
Can
we
go
to
slide
three
yeah
hold
on?
Let
me
just
fix
this
little
detail
here,
which
is
make
that
oh
yeah.
E
B
A
A
A
B
I
A
A
B
With
15
feet,
9
inches
rim
joists,
they
would
reach
they
would
reach
so
that
there
is
a
three
inch
gap
between
the
end
of
the
wall,
module
and.
I
A
A
A
F
A
Door,
though,
when
we
talk
about,
we
talk
about
alignment,
the
ledger
is
going
to
definitely
be
above
the
door,
so
we're
talking
about
the
second
story
door,
which
was
more
important
because
this
one
here
that
will
be
it'll,
be
probably
like
a
foot
or
so
above
there'll
be
ample
distance
there.
Here,
it's
just
one
and
a
half
inch.
G
C
A
I
Yeah
the
so
the
carport
is
like
a
double
of
what
we're
doing
with
the
house
right.
D
I
The
one
difference
is
that
we
don't
have
osb
on
that
side.
You
know
it
would
be
like
two
osbs
together
if
we
did,
but
we
don't
where
between
the
house
and
the
cardboard.
A
I
A
A
H
A
No
because
we
we
cut
the
joists
to
be
to
give
us
the
length
of
16
exactly
so
that'll
be
the
pattern.
The
pattern
will
be
like
this,
so
we
stagger
like
this.
That's
kind
of
oh.