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Celestron C4.5 User Manual

Celestron C4.5
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NOTE:
Declination
Drift
This
method
of
polar
alignment
allows
you
to
get
the
most
accurate
align-
ment
on
the
celestial
pole
and
is
required
if
you
want
to
do
long
exposure
deep-sky
astrophotography
through
the
telescope.
The
declination
drift
method
requires
that
you
monitor
the
drift
of
selected
stars.
The
drift
of
each
star
tells
you
how
far
away
the
polar
axis
is
pointing
from
the
true
celestial
pole
and
in
what
direction.
Although
declination
drift
is
simple
and
straight-
forward,
it
requires
a
great
deal
of
time
and
patience
to
complete
when
first
attempted.
The
declination
drift
method
should
be
done
after
any
one
of
the
previously
mentioned
methods
has
been
completed.
To
perform
the
declination
drift
method
you
need
to
choose
two
bright
stars.
One
should
be
near
the
eastern
horizon
and
one
due
south
near
the
merid-
ian.
Both
stars
should
be
near
the
celestial
equator
(i.e.,
declination).
You
will
monitor
the
drift
of
each
star
one
at
a
time
and
in
declination
only.
While
monitoring
a
star
on
the
meridian,
any
misalignment
in
the
east-west
direction
is
revealed.
While
monitoring
a
star
near
the
east/west
horizon,
any
misalignment
in
the
north-south
direction
is
revealed.
As
for
hardware,
you
will
need
a
motor
drive,
an
illuminated
reticle
ocular
to
help
you
recog-
nize
any
drift.
For
very
close
alignment,
a
Barlow
lens
is
also
recommended
since
it
increases
the
magnification
and
reveals
any
drift
faster.
Insert
the
cross
hair
ocular
and
align
the
cross
hairs
so
that
one
is
parallel
to
the
declination
axis
and
the
other
is
parallel
to
the
right
ascension
axis.
Move
your
C4.5
manually
in
R.A.
and
DEC
to
check
parallelism.
First,
choose
your
star
near
where
the
celestial
equator
and
the
meridian
meet.
The
star
should
be
approximately
within
1/2
an
hour
of
the
meridian
and
within
five
degrees
of
the
celestial
equator.
Center
the
star
in
the
field
of
your
telescope
and
monitor
the
drift
in
declination.
*
Ifthe
star
drifts
south,
the
polar
axis
is
too
far
east.
*
Ifthe
star
drifts
north,
the
polar
axis
is
too
far
west.
Make
the
appropriate
adjustments
to
the
polar
axis
to
eliminate
any
drift.
Once
you
have
eliminated
all
the
drift,
move
to
the
star
near
the
eastern
horizon.
The
star
should
be
20
degrees
above
the
horizon
and
within
five
degrees
of
the
celestial
equator.
e
Ifthe
star
drifts
south,
the
polar
axis
is
too
low.
*
Ifthe
star
drifts
north,
the
polar
axis
is
too
high.
Again,
make
the
appropriate
adjustments
to
the
polar
axis
to
eliminate
any
drift.
Unfortunately,
the
latter
adjustments
interact
with
the
prior
adjust-
ments
ever
so
slightly.
So,
repeat
the
process
again
to
improve
the
accuracy
checking
both
axes
for
minimal
drift.
Once
the
drift
has
been
eliminated,
the
telescope
is
very
accurately
aligned.
You
can
now
do
prime
focus
deep-sky
astrophotography
for
long
periods.
If
the
eastern
horizon
is
blocked,
you
may
choose
a
star
near
the
western
horizon,
but
you
must
reverse
the
polar
high/low
error
directions.
Also,
if
using
this
method
in
the
southern
hemisphere,
the
direction
of
drift
is
reversed
for
both
R.A.
and
DEC.
Astronomy
Basics
œ
31

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Celestron C4.5 Specifications

General IconGeneral
BrandCelestron
ModelC4.5
CategoryTelescope
LanguageEnglish

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