![]() North Korea has developed a gun known in the West as Koksan, with a range of 60 km using rocket-assisted projectiles. Some cannons or howitzers have been created with a very large range.ĭuring World War I the Germans created an exceptionally large cannon, the Paris Gun, which could fire a shell more than 80 miles (130 km). ![]() Rifling, while it may not increase the average ( arithmetic mean) range of many shots from the same gun, will increase the accuracy and precision of the gun. Longer barrels allow more of the propellant's energy to be given to the projectile, yielding greater range. See rifling for a greater explanation.įor projectiles that are launched by firearms and artillery, the nature of the gun's barrel is also important. If a projectile is given rotation along its axes of travel, irregularities in the projectile's shape and weight distribution tend to be cancelled out. The distribution of mass within the projectile can also be important, as an unevenly weighted projectile may spin undesirably, causing irregularities in its trajectory due to the magnus effect. Mass also becomes important, as a more massive projectile will have more kinetic energy, and will thus be less affected by air resistance. However, certain irregularities such as dimples on a golf ball may actually increase its range by reducing the amount of turbulence caused behind the projectile as it travels. The surface of the projectile also must be considered: a smooth projectile will face less air resistance than a rough-surfaced one, and irregularities on the surface of a projectile may change its trajectory if they create more drag on one side of the projectile than on the other. (And see Trajectory of a projectile.) Air resistance drag can be modified by the projectile shape: a tall and wide, but short projectile will face greater air resistance than a low and narrow, but long, projectile of the same volume. Generally speaking, a projectile with greater volume faces greater air resistance, reducing the range of the projectile. JSTOR ( July 2017) ( Learn how and when to remove this template message).Unsourced material may be challenged and removed.įind sources: "Range of a projectile" – news Please help improve this article by adding citations to reliable sources in this subsection. This subsection needs additional citations for verification. In addition to air resistance, which slows a projectile and reduces its range, many other factors also have to be accounted for when actual projectile motion is considered. This means that θ + ψ must be 90 degrees. ![]() The maximum horizontal distance traveled by the projectile, neglecting air resistance, can be calculated as follows: d = v cos θ g ( v sin θ + v 2 sin 2 θ + 2 g y 0 ) , For longer ranges see sub-orbital spaceflight. The following applies for ranges which are small compared to the size of the Earth. ![]() The horizontal ranges of a projectile are equal for two complementary angles of projection with the same velocity. It may be more predictable assuming a flat Earth with a uniform gravity field, and no air resistance. In physics, a projectile launched with specific initial conditions will have a range. The path of this projectile launched from a height y 0 has a range d.
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