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This article takes a look at mathematics behind missiles. We look at the equations that govern how far your missiles will travel and how much damage they deal. There's some math at the beginning, but you can skip over this if you wish.

Missile Damage Output

First Look at the Damage Equation

Here is the equation for missile damage:

If this looks daunting, then skip ahead to read the applications of the formula to combat. Here are the terms in the equation:

• D : base damage of missile
• S : Signature radius of target
• E : explosion radius of missile
• V_e: explosion velocity of missile
• V_t: velocity of target
• drf: damage reduction factor of missile

The log function used here is in base e, not base 10. You may have seen it written as ln. Note that unlike the turret damage equation, the missile damage does not care about angular velocity, but absolute velocity. To find your damage, the game computes each of the three numbers you see, picks the smallest of the, and multiplies that by the base damage. The damage reduction factor is a hidden stat, but seems to be the same for all missiles of a given size.

Note that you want a small DRF, since smaller powers of numbers less than 1 are larger. 

Typical S/E Values

Below is a table that lists some expected values for S/E for each missile type against various hull sizes:

File:SEvalues.png

Speed Tanking Missile Damage

We will now look at what velocities you can speed tank missile damage, and how much damage reduction you can get from speed tanking. To start, we'll assume that S/E = 1. Of course, the table above shows that this is very wrong, but you can factor in this by multiplying the explosion velocity V_e by S/E, which will adjust the figures appropriately. Hence, if a ship fires a standard light missile at a frigate then we multiply the explosion velocity of 170 by S/E, which will be about 80%, which gives us an effectively explosion velocity of about 136. Below is a list of explosion velocities for most missiles.