Vortex Optics VIPER 2-7X32 - DEAD-HOLD BDC User Manual

reticle

9

8

the Dead-Hold BDC reticle incorporates methods for wind drift correction
and range estimation using the hashmarks on the horizontal crosshair.
As in using the holdover hashmarks, the scope must be set at it’s highest
magnification.

Correcting for wind drift is done with the
hashmarks on the horizontal crosshair.
these hashmarks are spaced at 2 mOA,
with the inside ends of the heavy
horizontal crosshairs at 8 mOA from
center. Shooters familiar with the wind
drift numbers of particular ammunition
can use the hashmark spacing to help
estimate proper windage hold-off once the correct range and wind are
known or estimated. Use the online Long Range Ballistic Calculator
(LRBC) to learn wind drift numbers for your loads.

Ranging distances is done using the following simple formula:

Using the Reticle for Wind Drift Compensation and Ranging

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A shooter can compare a target object of known dimension (at shooting
distance) to either the vertical or horizontal hashmark spacing and roughly
estimate the range. Remember, hashmarks on the vertical crosshair are
spaced at 1.5 mOA, 4.5 mOA and 7.5 mOA. the top of the bottom
vertical heavy crosshair is 11 mOA from center. Horizontal hashmarks are
spaced at 2 mOAs.

Example: Ranging a Coyote
In your home area, you know that a coyote runs about three feet (36 inches)
in length. While out hunting, you observe a coyote
and range him with your scope set at highest power.
You see that the coyote’s body covers about the
distance from the center crosshair to the edge of
the heavy part of the horizontal crosshair (8 mOA).
Using the simple formula, you can estimate the
coyotes distance at 450 yards.

450 Y

arDs

=

36 i

nCHes

x

100

8 moa m

easureD

on

r

etiCle

3600

8

=

Example: Ranging a Deer
When spotting a distant buck while deer hunting, you turn your scope to
it’s highest power and range him. While looking
through the scope, you see that the distance from
the top of his back to the bottom of his chest (usually
about an 18-inch depth on a mature buck) spans
from the center crosshair to the 2nd hashmark down
(4.5 mOA) on the reticle. Using the formula, you
can then estimate the deer’s distance at 400 yards.

400 Y

arDs

=

18 i

nCHes

x

100

4.5 moa m

easureD

on

r

etiCle

1800

4.5

=

this formula has been simplified slightly to allow faster calculations, and
yields distance estimates which are 5 percent greater than actual distance.
If you desire more precise estimates, use the following formula:

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95.5

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