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From YouTube: Summer X Day 14 - Class Part 1.
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A
Here
yeah,
so
we
did
the
stairs
so
quite
a
few
things
on
a
plate
today,
so
deconstruction
stairs,
we
actually
got
a
jeff
is
not
here,
but
we
got
to
get
pick
up
an
order
of
materials
for
the
greenhouse
parts
tomorrow,
stuff
like
that,
there's
labeling
for
the
deconstruction
of
the
house.
So
we
kind
of
want
to
see
how
we
want
to
divide
up
tasks,
but
I
guess
it's
kind
of
a
busy
day.
A
In
fact,
there's
two
people
arriving
today,
there's
neil
adani
and
this
other
guy
richard
lane,
who
apparently
just
signed
up
so
he
said
he's
he
made
a
wire
transfer
and
he's
coming
tomorrow.
I
was
in
contact
with
him
before,
but
he
never
responded
again,
but
let's
see
if
he
shows
up,
but
apparently
so,
which
case
so
there's
like
4,
30
and
5
30
arrivals
at
the
airport.
A
So
I
don't
know
maybe
combine
that
with
the
materials
around
later,
but
we
don't
really
have
the
people
here.
I
don't
know
when
they're
gonna
appear
back
from
they're
organizing
their
trip.
A
So
probably
they
might
be
here
like
two
or
something
one
or
two
mm-hmm
yeah
so
other
than
that
yeah.
So
a
lot
a
lot
of
stuff
on
the
plate.
What
else
other
logistics
issues
shuffling
some
people
around
logan?
What
are
you
leaving
tomorrow
morning
or
leaving.
A
A
Yeah
I'll
have
to
leave
yeah
okay,
yeah,
we
gotta
be
careful
about
it.
Actually,
I
don't
know
how
how
the
guys
are
going
to
be
in
shape
today.
After
so
I
think
we
should
kind
of
get
to
that.
First
thing:
after
lunch
or
yeah,
1,
12,
30
or
1,
I
would
say
actually
so
that
we
don't
extend
it
into
too
much
pain.
What
do
we
have
on
the.
A
Well,
on
the
docket,
we
were
stairs
and
house
stuff,
but
so,
depending
what
people
are
are
up
to,
but
marking
also
so
on
the
house.
I
probably
want
to
go
out
there
in
terms
of
the
old
house,
the
new
cdca
home
three.
You
want
to
get
a
nice
inventory
and
marking
of
all
the
parts.
A
So
when
we
do
it
again,
it's
in
a
particular
order
and
in
fact
could
just
follow
the
same
procedure,
even
reuse,
the
holes
that
are
already
in
the
materials
so
that
we're
not
everything
actually
fits,
because
everything
is
pretty
much
more
or
less
fits
right.
Now
we
can
actually
make
some
improvements
as
we
build
the
next
one.
A
Possibly
one
investment
would
be
whatever
whatever
pad
we
start
from,
make
sure
we
invest
in
leveling
the
sill
plate
really
well,
so,
possibly
even
doing
like
a
little
step.
Little
pour
the
footer
that
we
completely
level
like
really
perfectly
on
that
pad
unless
we
actually
do
a
dedicated
pad
that
we
have
just
for
just
for
that,
and
we
make
sure
it's
really
high
quality
and
all
that.
A
So
that's
that
requires
a
lot
of
mixing.
It
comes
in
five
gallon
buckets,
but
it
is
a
bunch
of
mixing
it's
it's
kind
of
like
pouring
another
job
of
concrete.
It's
it's
just
a
thin
layer.
So,
right
now
we
can
form
up
probably
form
up
a
tiny.
You
know
just
tiny
leveling
of
the
whole
thing.
Now.
A
How
do
you
make
it
bond
to
to
the
former
you'd
have
to
drill
in
and
like
put
little
rebars
like
tiny
rebar
sticking
out,
so
it
actually
adheres
because
it's
not
going
to
be
a
good
connection
to
the
existing
concrete.
If
we
just
pour,
we
have
to
kind
of
re
make
make
sure
you
have
some
other
mechanical
reinforcement
there
yeah
I'm
talking
about
low-cost
foundations.
Definitely
the
concrete
is
a
lot
of
work,
but
how
to
make
it
easier
like
we
do
know
things
like
like
railroad
tracks.
What
do
they
do?
A
A
I
think,
there's
more
to
be
explored
there
for
lower
cost,
reducing
the
cost
of
the
carbon
footprint
foundations.
So
that
would
be
something
interesting
to
take
a
look
at
in
the
future.
Then
there's
the
idea
of,
like,
like
stem
wall
foundation,
which
the
pain
there
is
you're,
doing
basically
double
the
formwork.
If
you
do
a
little
stem,
you
have
to
have
boundary
on
each
side,
but
if
we
can
possibly
3d
print
that
kind
of
stuff,
then
we
could
get
good
good
leeway
and
pretty
accurate
foundations
that
are
easier
to
do.
A
This
goes
back
to
the
large
scale,
3d
printer,
how
far
we're
going
to
get
on
it
and
can
we
succeed
at
it?
I
mean,
I
think,
that's
wow.
That's
it's
got
huge
potential
and
I
guess
it's
the
idea.
There
is
once
again
the
one
percent
inspiration
99
perspiration.
It's
like
it's
gonna
work.
It's
like
who's
gonna.
Do
it?
A
How?
How
are
you
gonna?
Take
the
energy
spend
the
energy
to
make
it
actually
work,
work
really
well
so,
but
on
the
house
here,
so
we're
looking
at
pretty
much
we're
buttoning
it
everything
up
for
water
tightness,
so
we've
got
the
battens
on
the
side.
Now
there
up
12
feet
on
the
roof.
I
I
put
in
there
was
one
latch
that
we
used
to
get
in
off
the
roof
before
we
actually
had
the
carport,
so
we
actually
climbed
out
the
roof
and
down
a
big
ladder.
A
No,
how
do
we
do
it
well,
yeah
down
a
big
ladder
right.
We
went
all
the
way
down
from
the
roof
when
we
built
the
roof.
First,
we
had
to
put
up
all
the
all
the
materials
up
there,
but
we
left
the
latch.
So
we
can
climb
oh
yeah,
so
we
can
climb
down
the
latch
as
opposed
to
like
so
we
can
walk
off
the
second
floor
as
opposed
to
walking
off
the
roof
onto
a
ladder,
because
that's
like
really
high.
So
I
closed
up
that
latch,
put
an
insulation
on
it.
A
Put
up
house
wrap
on
the
top.
The
the
remaining
steps
on
top
are
to
to
do
the
siding,
because
there's
about
almost
two
feet
missing
on
top
so
doing
that,
I
was
doing
that.
I'm
not
sure
if
I
can
finish
work
on
that
today,
because
we
probably
got
to
do
the
labeling
on
the
other
house
get
ready
for
that
other
stuff,
but
the
stairs
went
actually.
So
that's
that's
what
I
did
up
there.
There
was
that
latch
that
that
was
there.
A
They
put
a
piece
of
osb
on
put
a
boundary
there's
this
four
inch
little
step
wall
around
that
holds
the
insulation,
there's
two
layers
of
insulation
that
are
each
two
inch
thick
so
here
attaching
that
putting
in
the
insulation
doing
the
house
wrap
tape
to
to
close
up
the
seams
for
air
tightness
and
then
put
the
epdm
back
on,
and
here
I'm
working
on
taking
off
the
boards
that
that
are
pinching
down.
A
They
were
pinching
down
the
epdm
on
the
sides
to
clear
that
to
put
on
house
wrap
and
then
to
pin
it
to
then
put
on
the
siding,
so
the
siding
is
not
on
yet.
But
yeah
did
that.
A
Yeah
good
job
there
we
got
the
footage
on
that
improvements
for
next
time,
definitely
a
jig,
something
like
even
a
3d
printed
jig
that
allows
you
to
fit
in
the
next
step.
At
the
exact
location.
B
A
B
Treads
we
had
to
cut,
he
would
start
the
screws
and
then
we
would
come
in
to
the
nice
smooth
flat
pad
inside
the
house,
and
we
would
both
kneel
on
it
as
he
re-screwed
the
screws
and
they
added
more
screws
and
that
helped
quite
a
bit
but
yeah.
I
don't
know
the
best
way
to
do
that,
but
maybe
to
have
some
clamps
three.
A
Clamping
could
help
it
if
the
boards
are
still
laying
on
a
pile
say
we
get
a
chance
to
pre-cut
this
if
they're
warped
up
just
stacking
them
vertically
up
on
each
other,
that
flattens
them
out.
A
In
a
humid
environment,
if
you
were
to
do
that,
I
mean
that's
how
they
make
violins
and
things
like
curved
wood.
That's
just
add
some
water
to
it:
yeah
and
yeah,
another
video,
oh
yeah,
so
oh
yeah,
I
pulled
off
ken's
one
of
ken's
videos
when
we
were
doing
the
house
recording
so
and
then
there
was
did
you
guys
see
the
nice
pictures,
the
glory
pictures
yeah?
A
Yeah,
so
that
was
pretty
good
nice,
nice
pictures
and
we'll
time
lapse
the
the
deconstruction
today
now
the
deconstruction
part.
Let's
see
this
is
oh
yeah,
that
was
that
was
this
one.
You
can
play
that
in
the
back,
but
you
know
what
is
the
the
purpose
of
the
deconstruction
there's,
actually
a
good
piece
of
information
that
does
come
out
of
it,
and
that
is
the
ultimate
limit
of
speed
like
what
the
limit
is.
A
If,
like
imagine,
you
play
that
video
in
reverse,
that
means
that
every
single
person
knew
exactly
what
to
do,
because
here
the
information
is
already
contained
in
a
building
and
it's
like
all
act,
all
screws
put
in
place.
So
if
a
person
knows
that
the
deconstruction
actually
tells
you
the
limit
of
how
long
it
would
take
if
everything
had
perfect
flow,
so
that
is
like
the
ultimate
baseline
for
ergonomics
of
build
and
then
the
question
would
be
well.
How
close
to
that?
A
Can
we
actually
get
in
a
real
build
when
we're
actually
going
up
and
things
are
not
measured
yet
so
devices
we
could
use?
There
is
pre-measuring
things
and
pre-marking
jigs,
so
we
can
take
a
look
at
every
step
and
say:
okay,
how
can
we
make
that
easier,
more
accurate
poke,
meaning
things
go
in
a
certain
way,
they're
pre-marked
yeah.
A
So
then,
what's
your
total
build
time,
and
it
of
course
depends
how
many
people
there
are
and
how
they're
getting
in
the
way.
But
the
thing
that
we
can
do
right
now
is
take
when
we
do
the
deconstruction
take
up
all
the
like,
for
example,
when
we're
putting
up
the
trusses,
maybe
people
get
in
the
way
of
each
other,
but
here
right
now
taking
it
down
it's
a
little
easier
because
gravity's
helping
you,
but
that's
where
we
could
have
like,
for
example,
four
teams.
A
I
think
the
easiest
way,
probably
to
take
the
take
the
panels
off
is
yeah
after
we
take
them
off,
slide
them
off
and
like
for
the
light
ones.
We
can
definitely
hang
them
off
the
edge
and
two
people
would
receive
them.
On
a
on
the
ground
floor
for
the
windows
we'll
see
about
that,
how
comfortable
we
feel
that
we
can
actually
push
it
off
the
edge
and
can
we
actually
hold
it,
but
maybe
put
a
put
a
rope
on
it?
I
don't
know
if
we
want
to
do
that,
we
can
basically
see.
A
Is
there
a
good
way
to
hold
it?
If
you
can
hold
it
effectively,
then
then
it's
much
easier,
just
some
kind
of
a
rope
attachment
to
it.
Maybe
would
be
the
easiest
thing
for
that.
That
would
probably
be
a
a
screw-in
hook.
We
actually
got
some
of
those,
maybe
like
we
can
put
in
a
hook
at
the
top,
so
we
can
do
a
safety
rope,
and
so
then
we
take
it
down,
but
it
may
not
even
be
necessary.
A
We'll
see,
we'll
see,
we'll
see
how
it
how
it
looks
in
practice,
because
I
mean
getting
the
things
down
is
much
easier.
After
all,
so.
B
I
think
another
good
data
point
for
deconstruction
is
eventually
people
may
want
to
expand
these
homes.
These
are
designed
for
expansions.
So
just
knowing
like
what
is
the
prep
time
to
remove
a
wall.
A
A
Yes,
I
took
that
remaining
house
wrap
put
it
on
the
back
side.
There
staple
these
up,
there's
little
chunks
missing
there,
I'm
not
sure
how
big
a
deal
that
is
but
yeah.
Ideally
we
want
to
have
that
and
once
again
it's
shingles
shingle
overlap.
Top
top
house
wrap
goes
over
yeah.
So
that's
that's
basically
it
so,
given
that,
so
what
do
we
want
to
do
today?
B
B
A
Yeah
not
sure
we
need
more
than
a
person
like.
I
could
do
that,
so
I
can
keep
notes
in
my
notebook
as
well
yeah
for
what
parts
I
maybe
I'll
just
do
that.
Okay,.
A
I'd
say
so
because
yeah
so
so
we
we
know.
Maybe
if
there's
a
slight
difference,
I
mean
maybe
some
fit
better
than
other.
We
know
these
fit
yeah
yeah
just
number
it.
So
I
mean
just
for
inventory
sake
like
that.
You
know.
A
Oh,
we
actually
have
all
the
16
we
need
or
whatever,
so
that
in
the
next
workshop
you
can
say:
okay,
we
need
exactly
this
and
those
kinds
of
details
actually
end
up
mattering,
because
a
lot
of
time
we
spend
just
inventorying
stuff
and
looking
for
stuff,
so
yeah
yeah
right
so
on
a
house
so
on
a
on
a
landing.
So
how
high
are
we
off?
We've
got,
let's
see
so
in
the
video
we
were,
let's
see,
what's
the
best
video
there
to
look
at
where
we
ended
up.
B
We
got
another
one
under
that.
Basically,
we
put
yeah
the
last
step
where
we're
at
and
it's
like,
16
and
a
half
inches
above
the
ground,
so
the.
C
A
So
if
you
divide
16
and
a
half,
so
it's
about
eight,
so
then
the
landing
would
have
to
be
a
little
bigger
than
than
a
seven
and
three
quarters.
So,
like
eight,
I
think
that's
that's
fine,
the
way
it
works
out,
but
that
means
that
we
would
have
to
cut
down.
Probably
so
it's
like
7.25
for
2x8,
we
probably
cut
down
a
2x10
for
the
exact
height,
it's
somewhat
inconvenient,
but
maybe
well
what
if
we
don't
cut
well,
no,
you
want
to
you
want
to
have
the
first
step
regular.
A
You
don't
want
to
make
that
yeah.
The
first
step
has
to
be
regular,
so
if
we
we've
got
16
and
we
got
16
and
a
half
so
minus
7.5
or
7.7
and
three
quarter
or
so
so
right
so
eight
and
a
quarter
well,
that
will
be
a
a
two
by
eight.
If
we
have
an
exact,
if
we
have
one
inch
yeah,
maybe
I
oh
that
would
actually
be
pretty
convenient
there.
A
A
But
if
that's
the
case
maybe
put
a
little
quarter
spacer
on
the
bottom,
that
would
be
easier.
A
quarter
spacer
like
on
the
rim
of
the
framing
yeah.
We
should
probably
build
up
rather
than
cut,
because
building
up
you're
working
with
a
regular
lumber,
so
yeah,
probably
better
than
the
cutting
yeah,
save
some
work.
We
just
need
to
locate
some
quarter
inch
material
which
we
have
in
the
lumber
pile
in
the
back,
so
that
will
be
okay.
A
A
Wait
what's
the
detail
there,
that's
so
those
wires!
A
A
We
still
want
to
keep
that
openable
so
that
when
we
feed
the
wires
through
because
what
we
have
to
do
here
is
either
run
the
wires
in
the
little
channel
under
the
carport
door
or
go
around
it,
and
we
were
thinking
of
going
around
it
and
put
it
in
a
trim
with
the
all
the
wiring
in
the
trim.
There's
like
not
too
many
wires
that
are
going
there.
But
there
are
so
probably
if
we
leave
the
bottom
of
that
utility
channel
open.
A
A
Depending
how
we
build
how
we
build
the
landing,
but
if
you
make
it
into
like
a
standard
frame
structure
with
a
frame
outside
then
wires
cannot
get
through
it.
We're
going
to
run
the
wires
right
behind
it.
So
we
have
to
have
some
aperture
left
open.
Maybe
leave
like
when
we
do
the
framing,
maybe
leave
us
drill
a
hole,
so
we
feed
the
wires
through
or
something
like
that,
or
actually
like
a
whole
slit
yeah.
B
A
That
the
plat
it
would
be
ideal
if
the
platform
itself
is
removable
yeah,
so
so
that
the
wires
can
run
under
so
effectively
like
if
we
run
the
wires
like
think
about
it,
the
wires
are
running
through
right
now.
Can
we
just
put
the
put
our
platform
on
top
of
that,
allowing
the
wires
to
run
to
the
wall,
which
is
the
the
side
wall.
A
Does
have
some
electrical?
It's
got
outlets,
so
we
yeah
those
wires
go
under
mostly
to
this
wall,
not
not
to
here,
because
there's
really
no
electrical
here.
There
is
electrical
in
here,
okay,
so
it
needs
to
like
go
in
well.
So
if,
if
we
go
around
the
door
which
we
have
to
make
that
decisions,
probably
that's
what
we
do,
because
you
want
to
be
putting
this
trip
thing
in
front
of
the
door,
so
we're
going
to
go
around
the
door,
let's
say
in
a
trimmed
up,
structure,
yeah
and
then
run
from
here.
A
A
A
Yeah,
so
if
we
do
the
landing
like
it's
shown
here,
what
we
have
to
do
on
a
landing
is
on:
let's
see,
let's
do
the
cad.
A
A
So
if
we
hide
this
wall
here,
so
we
see
the
platform
is
like
this,
but
here
I
would
say
we
just
take
out
so
platform
is
just
a
simple
thing:
it
it
won't
yeah.
That's
you
want
to
have
a
supporting
in
the
middle
supporting
part
one
or
two
in
the
middle.
The
spacing
there
should
be
like
16
inches
for
the
one
bias.
A
C
D
How
to
run
wires
through
the
garage
door
is
that
the
question.
A
Yeah
over
the
door
and
we're
planning
on,
like
probably
like
a
three
and
a
half
inch
utility
like
trimmed
with
one
by
fours
around
the
door.
D
A
Yeah,
so
we
have
to
build
it
up
a
little
bit.
That's
where
3d
prints
would
be
very
useful.
Basically,
a
raceway
around
the
door,
yeah.
D
A
A
B
B
Keep
that
keep
that
lino
electric
following
the
blue
wall
and
kind
of
reaching
that
arrow
and
then.
C
A
A
A
Yeah,
I
I
actually
like
that
so
because
we
have
the
utility
channel
at
a
particular
height
everywhere,
it's
gonna,
be
the
landing,
is
gonna,
be
expose
us
like
a
little
bit
of
that
utility
channel
yeah.
So
we
can
build
it
up.
There
have
this
little
utility
channel
thing
or
in
fact
do
a
custom
one
where
it's
right
on
top
of
it
or
something.
A
So
that
way,
the
wires
are
completely
exposed
ex
well
exposed
as
an
accessible,
not
exposed
but
accessible.
What
do
you
think
of
that
katarina?
A
little
problem
solving
on
that?
So
we,
let's
okay,
so
let's
do
slide
duplicate
slides.
So
we.
D
Were
hearing
yeah,
hello,
yeah,
okay,
I
think
that's
a
good
idea.
It
is
actually
it
turns
out
to
be
much
more
mainstream
than
I
thought.
It
was
remember
that
engineer
that
we
talked
to
from
california
that
they
say
that.
Oh
they
do
that
here.
Let
me
send
the
link
wire.
They
baseboard.
B
B
C
A
A
A
D
So
I
just
faced
it
some
a
link
with
some
some
possibilities,
there's
actually
a
a
type
of
baseboard
that
has
a
space
for
cables
wires
and
then
there's
like
kind
of
like
something
there's
like
a
whole
low
quarter
round.
If
you
put
along
your
baseboard,
they
can
also
carry
wires.
So
something
like
that.
A
A
So
that's
stuff
for
3d
printing,
so
this
stuff
is
expensive.
It's
like
eight
footer
for
it's
like
10
bucks,
a
foot.
D
We
have
to
right
right,
I
think
so
I
think
that's
a
good
idea.
If
we
I
mean.
A
A
D
C
C
D
A
D
D
D
A
A
C
B
I
can't
really
tell
so
the
board
is
it's
not
quite
from
the
floor
up
to
make
it
level
the
boards
were
the
same.
So
on
the
right
side,
the
wall
side,
they
had
a
17
inch
length.
2X4
has
a
temporary
support
under
the
right
side
on
the
under
the
left
side
of
the
16
and
a
half.
It
just
moves
a
little
loose.
We.
B
A
B
A
Six
about
six
inch,
that's
kind
of
like
that's
going
to
be
a
high
landing.
A
What's
the
minimum
landing
distance
katarina?
Is
there
one
because
we
have
here,
it
was
supposed
to
end
on
a.
A
D
D
D
D
D
A
If
the
landing
is
high,
then
I
don't
know
leave
that,
but
that
means
this.
What
what's
the
solution
to
that
we'd
have
to
make
the
steps
we
need
another
step.
Why
is
this
not
adding
up
well.
D
C
C
A
A
Door
if
we
made
the
these
well,
the
steps
would
actually
stick
out.
So
we
leave
this
bay
the
same.
We
leave
this
whole
thing
the
same
here.
It's
just
that
these
steps
stick
out
more
above
the
door.
That's
going
to
be
here
for
expansion,
that's
an
expansion
door
back
there,
but
let's
take
a
look
at
the
link.
C
A
A
We
can't
heighten
the
rise
unless
there
is
a
little
leeway
on
the
rise,
because,
like
a
half
inch
or
a
quarter
inch
would
add
up
over
those
steps
like
a
half
inch
times,
14,
that's
like
seven
inches,
so
it's
like,
if
you
could
add
a
little
bit
to
the
height,
then
we
can
look
at
the
codes.
What
do
they
really
say
for
the
allowed
rise?
Is
that
really
three
seven
and
three
quarters
or
do?