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The missile knows where it is at all times. It knows this because it knows where it isn't. By subtracting where it is from where it isn't, or where it isn't from where it is (whichever is greater), it obtains a difference, or deviation. The guidance subsystem uses deviations to generate corrective commands to drive the missile from a position where it is to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not the position that it wasn't, the system has acquired a variation, the variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the missile must also know where it was.
The missile guidance computer scenario works as follows. Because a variation has modified some of the information the missile has obtained, it is not sure just where it is. However, it is sure where it isn't, within reason, and it knows where it was. It now subtracts where it should be from where it wasn't, or vice-versa, and by differentiating this from the algebraic sum of where it shouldn't be, and where it was, it is able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't. By subtracting where it is from where it isn't, or where it isn't from where it is (whichever is greater), it obtains a difference, or deviation. The guidance subsystem uses deviations to generate corrective commands to drive the missile from a position where it is to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not the position that it wasn't, the system has acquired a variation, the variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the missile must also know where it was.
The missile guidance computer scenario works as follows. Because a variation has modified some of the information the missile has obtained, it is not sure just where it is. However, it is sure where it isn't, within reason, and it knows where it was. It now subtracts where it should be from where it wasn't, or vice-versa, and by differentiating this from the algebraic sum of where it shouldn't be, and where it was, it is able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't. By subtracting where it is from where it isn't, or where it isn't from where it is (whichever is greater), it obtains a difference, or deviation. The guidance subsystem uses deviations to generate corrective commands to drive the missile from a position where it is to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not the position that it wasn't, the system has acquired a variation, the variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the missile must also know where it was.
The missile guidance computer scenario works as follows. Because a variation has modified some of the information the missile has obtained, it is not sure just where it is. However, it is sure where it isn't, within reason, and it knows where it was. It now subtracts where it should be from where it wasn't, or vice-versa, and by differentiating this from the algebraic sum of where it shouldn't be, and where it was, it is able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't. By subtracting where it is from where it isn't, or where it isn't from where it is (whichever is greater), it obtains a difference, or deviation. The guidance subsystem uses deviations to generate corrective commands to drive the missile from a position where it is to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not the position that it wasn't, the system has acquired a variation, the variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the missile must also know where it was.
The missile guidance computer scenario works as follows. Because a variation has modified some of the information the missile has obtained, it is not sure just where it is. However, it is sure where it isn't, within reason, and it knows where it was. It now subtracts where it should be from where it wasn't, or vice-versa, and by differentiating this from the algebraic sum of where it shouldn't be, and where it was, it is able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't. By subtracting where it is from where it isn't, or where it isn't from where it is (whichever is greater), it obtains a difference, or deviation. The guidance subsystem uses deviations to generate corrective commands to drive the missile from a position where it is to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not the position that it wasn't, the system has acquired a variation, the variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the missile must also know where it was.
The missile guidance computer scenario works as follows. Because a variation has modified some of the information the missile has obtained, it is not sure just where it is. However, it is sure where it isn't, within reason, and it knows where it was. It now subtracts where it should be from where it wasn't, or vice-versa, and by differentiating this from the algebraic sum of where it shouldn't be, and where it was, it is able to obtain the deviation and its variation, which is called error.

Ракета всегда знает свое место. Он знает это, потому что знает, где не следует находиться. И, вычитая, где оно есть, из того, где его нет, или где его нет, из того, где оно есть (в зависимости от того, что больше), получается разница или отклонение. Подсистема наведения использует отклонения для выработки корректирующих команд, чтобы переместить ракету из ее положения в положение, в котором ее нет, и достичь положения, в котором она не была, а находится сейчас. Таким образом, положение, в котором он был, теперь является положением, в котором его не было, и из этого следует, что положение, в котором он был, теперь является положением, в котором его не было. В том случае, если ситуация, в которой он находится, отличается от той, в которой его не было, система получила разницу, разница - это разница между тем, где находится ракета, и тем, где его не было. Если разница считается важным фактором, она также может быть исправлена компанией GEA. Однако ракета также должна знать, где она находится. Сценарий компьютерного наведения ракеты работает следующим образом. Поскольку одно из изменений изменило часть информации, полученной ракетой, нет уверенности в том, где она находится. Однако он уверен в том, где его нет, в пределах разумного, и знает, где он находится. Теперь он вычитает то, где это должно быть, из того, где этого не было, или наоборот, и, отличая это от алгебраической суммы того, где этого не должно быть, и того, где это было, он может получить отклонение и его дисперсию, которая называется ошибкой.

Ракета всегда знает свое место. Он знает это, потому что знает, где не следует находиться. И, вычитая, где оно есть, из того, где его нет, или где его нет, из того, где оно есть (в зависимости от того, что больше), получается разница или отклонение. Подсистема наведения использует отклонения для выработки корректирующих команд, чтобы переместить ракету из ее положения в положение, в котором ее нет, и достичь положения, в котором она не была, а находится сейчас. Таким образом, положение, в котором он был, теперь является положением, в котором его не было, и из этого следует, что положение, в котором он был, теперь является положением, в котором его не было. В том случае, если ситуация, в которой он находится, отличается от той, в которой его не было, система получила разницу, разница - это разница между тем, где находится ракета, и тем, где его не было. Если разница считается важным фактором, она также может быть исправлена компанией GEA. Однако ракета также должна знать, где она находится. Сценарий компьютерного наведения ракеты работает следующим образом. Поскольку одно из изменений изменило часть информации, полученной ракетой, нет уверенности в том, где она находится. Однако он уверен в том, где его нет, в пределах разумного, и знает, где он находится. Теперь он вычитает то, где это должно быть, из того, где этого не было, или наоборот, и, отличая это от алгебраической суммы того, где этого не должно быть, и того, где это было, он может получить отклонение и его дисперсию, которая называется ошибкой.

sir she was 2.5 in human years

so shes 88?

No.

Bro that makes her like 3 in real life lmao

THP lore

NAHHHHH

me when i lie:

👍

I don't know what demonic lying website you were on but it was lying.