Explore: Maneuverable Reentry Bodies
Discover books, insights, and more — all in one place.
Learn more about Maneuverable Reentry Bodies with top reads curated from trusted sources — all in one place.
AI-Generated Overview About “maneuverable-reentry-bodies”:
Books Results
Source: The Open Library
The Open Library Search Results
Search results from The Open Library
1Singular perturbation analysis of AOTV-related trajectory optimization problems
By Anthony J. Calise
“Singular perturbation analysis of AOTV-related trajectory optimization problems” Metadata:
- Title: ➤ Singular perturbation analysis of AOTV-related trajectory optimization problems
- Author: Anthony J. Calise
- Language: English
- Publisher: ➤ Georgia Institute of Technology, School of Aerospace Engineering - National Aeronautics and Space Administration, Langley Research Center - For sale by the National Technical Information Service
- Publish Date: 1990
- Publish Location: ➤ [Hampton, VA - Springfield, VA - Atlanta, GA
“Singular perturbation analysis of AOTV-related trajectory optimization problems” Subjects and Themes:
- Subjects: ➤ Aeroassist - Guidance (Motion) - Maneuverable reentry bodies - Orbit transfer vehicles - Orbit transfer vehicles - Perturbation - Research vehicles - Trajectories - Trajectory optimization
Edition Identifiers:
- The Open Library ID: OL16126816M
Access and General Info:
- First Year Published: 1990
- Is Full Text Available: No
- Is The Book Public: No
- Access Status: No_ebook
Online Access
Downloads Are Not Available:
The book is not public therefore the download links will not allow the download of the entire book, however, borrowing the book online is available.
Online Borrowing:
Online Marketplaces
Find Singular perturbation analysis of AOTV-related trajectory optimization problems at online marketplaces:
- Amazon: Audiable, Kindle and printed editions.
- Ebay: New & used books.
Wiki
Source: Wikipedia
Wikipedia Results
Search Results from Wikipedia
Maneuverable reentry vehicle
The maneuverable reentry vehicle (abbreviated MARV or MaRV) is a type of warhead for ballistic missiles that is capable of maneuvering and changing its
Atmospheric entry
Arguably, the most significant biconic ever flown was the Advanced Maneuverable Reentry Vehicle (AMaRV). Four AMaRVs were made by the McDonnell Douglas Corp
Lifting body
eXperimental Vehicle performed the first ever successful reentry of a lifting body spacecraft. The lifting body had been imagined by 1917, in which year an aircraft
DF-15
features, as well as an active radar seeker, laser rangefinder, and maneuverable reentry vehicle. It is capable of ranges between 50–800 km (31–497 mi) with
Hypersonic weapon
aerodynamic lift to allow their reentry vehicles to maneuver under guided flight within the atmosphere. Maneuverable reentry vehicles, such as employed on
Hypersonic glide vehicle
span. Hypersonic flight Hypersonic weapon Maneuverable reentry vehicle Multiple independently targetable reentry vehicle Non-ballistic atmospheric entry
Space Shuttle thermal protection system
Shuttle Orbiter during the extreme 1,650 °C (3,000 °F) heat of atmospheric reentry. A secondary goal was to protect from the heat and cold of space while
Penetration aid
can confuse an enemy's missile defense systems. Reentry decoys, consisting of very small reentry bodies that mimic the decelerating trajectory and radar
Kheibar Shekan
Revolution. The missile is propelled by solid fuel and its warhead is maneuverable in terminal phase with the objective of evading air defenses. It has
Hwasong-16B
glide vehicle (HGV), in January 2024, a variant of Hwasong-16B with maneuverable reentry vehicle (MaRV) was tested. The official name of this variant may