Field artillery accuracy

Field artillery accuracy plays a very important role in ensuring success of the army in the field. Field artillery refers to a team of the army that is responsible for ensuring that exact precision is used when placing weapon systems. Basically, the team is responsible for ensuring that weapon systems deliver lethal and accurate firepower. The artillery team is assigned the task of targeting, destroying, neutralizing and suppressing the enemy using a rocket, cannon or missile fires. This team is also responsible for integrating all assets of fire support into one collective arm in the operation. The location of field artillery and the weapons are usually concealed to ensure that the enemies do not predict possible attacks.

As such field artillery accuracy becomes very important. In most cases, firing is done indirectly and the field artillery weapon must not miss the target. Target may not be visible from the weapon’s firing position. In most cases, field artillery is sent to the field before other members of the army. They prepare the battlefield to facilitate successful accomplishment of the job. While on the field, the artillery team organizes and concentrates teams to come up with measures of organizing weapons in preparation for a future conflict and attack. To overcome the challenge of attacking indirect targets, ammunition and weapons requires a special setting. This setting ensures that when fired, the weapon results to a projectile that will hit or cause the desired impact on the object or target. Achieving this accuracy is not easy. It requires research to establish the exact location of the target and how best to hit it.

A field artillery team has also got to establish possible deflection, the range of the target from the weapon and the target’s altitude. Determination of the vertical interval and the site is very important. The team also has to compensate nonstandard conditions likely to affect the firing data. All this is usually done in a chart whose data is eventually converted into firing data. This requires evaluation of the charge, shell, fuse setting, quadrant elevation and deflection. The converted data is then applied to the ammunition and weapon while firing to achieve field artillery accuracy.