后座動(dòng)量應(yīng)該和彈丸加燃?xì)獾膭?dòng)量大致相等�����。
Free Recoil momentum = (Wr/g) * Vre
= (250,000 / 32.174) * 37.236
= 289.33 x 10^3
The Broadside Momentum for 9 projectiles can now be calculated as follows:
9發(fā)齊射的動(dòng)量:
Broadside Momentum = 9 * (momentum of projectile + momentum of propellant gasses)
= 9 * (209.80 x 10^3 + 79.54 x 10^3)
= 2.60 x 10^6
Using Greg's formula, the velocity of an Iowa firing a 9-gun broadside can be recalculated as follows:
計(jì)算IOWA在齊射后的速度:
Mass of broadside * Velocity of broadside = Mass of ship * Velocity of ship
齊射質(zhì)量×速度=船質(zhì)量×船速度
As the Mass of broadside * Velocity of broadside term is
equivalent to Broadside Momentum, this formula can be restated as
follows:
因?yàn)辇R射質(zhì)量×速度等于之前計(jì)算的齊射動(dòng)量����,推得:
Broadside Momentum = Mass of ship * Velocity of ship
齊射動(dòng)量=船質(zhì)量×船速度(橫移速度)
Solving for the velocity of the ship and using the above calculated momentum figures:
計(jì)算:
Velocity of ship (船橫移速度)= Broadside Momentum / [Mass of ship] (齊射動(dòng)量/船質(zhì)量)
= 2.60 x 10^6 / [58,000 * (2,240 / 32.174)]
= 0.64 fps
So, the ship's velocity ON ICE with the guns firing at
zero degrees elevation would be about 7.7 inches per second rather than
the 6 inches per second calculated above. When one considers that any
sideways motion of the ship through water is actually resisted by the
wall created by the hull of the ship, whose wetted surface is about 860
feet long and 38 feet deep, then it can be easily understood that Dick
Landgraff's comment above, "theoretically, a fraction of a millimeter,"
is closer to the truth.
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