Computation of the Different Errors in the Ballistic Missiles Range | Zendy

F. A. Abd El-Salam | Zendy; S. E. Abd El-Bar | Zendy

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Computation of the Different Errors in the Ballistic Missiles Range

Author(s) -

F. A. Abd El-Salam,

S. E. Abd El-Bar

Publication year - 2011

Publication title -

isrn applied mathematics

Language(s) - English

Resource type - Journals

eISSN - 2090-5572

pISSN - 2090-5564

DOI - 10.5402/2011/349737

Subject(s) - ballistic missile , missile , orbit (dynamics) , trajectory , aerospace engineering , range (aeronautics) , equator , plane (geometry) , physics , trajectory of a projectile , computation , computer science , mathematics , engineering , algorithm , geometry , astronomy , latitude

The ranges of the ballistic missile trajectories are very sensitive to any kind of errors. Most of the missile trajectory is a part of an elliptical orbit. In this work, the missile problem is stated. The variations in the orbital elements are derived using Lagrange planetary equations. Explicit expressions for the errors in the missile range due to the in-orbit plane changes are derived. Explicit expressions for the errors in the missile range due to the out-of-orbit plane changes are derived when the burnout point is assumed on the equator.

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