Forsberg, Herrick, and Bussey, 1998
Contents
Forsberg, Herrick, and Bussey (1998): The Effects of Impact Angle on the Shape of Lunar Craters
(bibliography entry)Table of Contents
[#Forsberg, Herrick, and Bussey (1998): The Effects of Impact Angle on the Shape of Lunar Craters Forsberg, Herrick, and Bussey (1998): The Effects of Impact Angle on the Shape of Lunar Craters]
[#Forsberg, Herrick, and Bussey (1998): The Effects of Impact Angle on the Shape of Lunar Craters-Description Description]
[#Forsberg, Herrick, and Bussey (1998): The Effects of Impact Angle on the Shape of Lunar Craters-Additional Information Additional Information]
[#Forsberg, Herrick, and Bussey (1998): The Effects of Impact Angle on the Shape of Lunar Craters-LPOD Articles LPOD Articles]
[#Forsberg, Herrick, and Bussey (1998): The Effects of Impact Angle on the Shape of Lunar Craters-Bibliography Bibliography]
Description
Paper differentiates oblique versus high-angle (vertical) impacts by comparing down-range and cross-range profiles. The crater profiles were extracted from the Apollo LTO charts.
Additional Information
- Craters identified as high-angle based on symmetric profiles are: Timocharis, Fischer, Macrobius A, Peek and Sulpicius Gallus
- Craters identified as low-angle (unsymmetric) are Necho, Proclus, Pytheas, Messier A, and Messier
- Messier is identified as likely a 1° impact with Messier A as a ricochet product.
- Torricelli A (not illustrated) and Pytheas are identified as likely 15° impacts. The remaining unsymmetric craters are believed to be from impacts in the range 15° to 45°.
LPOD Articles
Bibliography
Forsberg, N. K.; Herrick, R. R.; Bussey, B. 1998. The Effects of Impact Angle on the Shape of Lunar Craters. 29th Annual Lunar and Planetary Science Conference, March 16-20, 1998, Houston, TX, abstract no. 1691.
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