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Apollo 10 returned 15 magazines of 16-mm cine photography using SO-368 colour film balanced for exterior lighting (CEX) and SO-168 colour film balanced for interior lighting (CIN). Eleven of the magazines contain plottable scenes of the lunar surface. Four magazines contain coverage of activity inside the spacecraft, the docking and the outside view during re-entry. Very good lunar surface detail was obtained from high and low angles, near vertical sequences as well as in many panoramic views. Most exposures were good except near subsolar when the rendition of scene was poor.
Apollo 10 Sequence Photography, Magazines C, D, F, G, H; 16-mm (Film width).
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Apollo 10 Sequence Photography, Magazines I, K, L, V, W, Y; 16-mm (Film width).
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SO-368--Transposition and Docking
SO-168--Intra Vehicular Activity (IVA)
SO-168--Intra Vehicular Activity (IVA)
SO-368Frames 1121-4376 Sequence from 177°W to 15°E. Continuous near vertical sequence from lunar farside across Mare Tranquillitatis.Frames 4377-4666 Sequence from 33°E to 18°E. Continuous high oblique sequence over Maskelyne, Sabine and Ritter.
Frames 4667-5414 8°S, 15°E (approx. centre of sequence). Panoramic high obliques over Delambre and Theon.Jr.
SO-368
Frames 1-1407 2°S, 86°E (approx. centre of sequence). High oblique sequence of Earthrise over Smyth's Sea. Poor scene rendition.Frames 1408-2265 Sequence from 46°E to 40E. Continuous high to low oblique sequence from edge of Sea of Fertility near Secchi, over Lunar Landing Site 1 and 2, Sabine and Ritter, stops at margin of Sinus Medii.
Frames 2672-3089 1°S, 83°E (approx. centre of sequence). High oblique sequence of Earthrise over Mare Smythii. Poor scene rendition.
Frames 3122-3175 Entire Moon.
Frames 3196-5732 Earth view.
SO-368Frames 1-973 5°S, 168°W (approx. centre of sequence). High oblique sequence of lunar farside.Frames 974-1043 1°S, 163°E (approx. centre of sequence). Near vertical sequence of lunar farside.
Frames 1044-1206 3°N, 143°E (approx. centre of sequence). Near vertical sequence of lunar farside.
Frames 1207-1273 3°N, 132°E (approx. centre of sequence). Near vertical sequence of lunar farside.
Frames 1274-1333 4°N, 120°E (approx. centre of sequence). Near vertical sequence of lunar farside.
Frames 1339-1676 Not plotted. Earthrise-poor rendition of scene.
Frames 1638-2213 Not plotted. Farside scene near subsolar poor condition.
Start of roll.
Frames 2226-5341 Sequence from 51°E to 23°E. Continuous near vertical sequence from Mare Fecunditatis and Mare Tranquillitatis, south of Lunar Landing Site 2.
SO-368Frames 1-5342 Sequence from 62°E to 21°E. Continuous sequence starting with lunar farside scene at edge of Mare Undarum and Mare Spumans and continues to the nearside over the Mare Fecunditatis and ends Mare Tranquillitatis. Passes south of Lunar Landing Site 2.
SO-368Frames 1-5021 Sequence starts at 124°E and ends at 77°E. Sequence contains near vertical, low and high obliques of lunar farside scenes, Mare Smythii and Earthrise.
SO-368Frames 1-5462 Sequence starts at 171°E and ends at 128°E. High to low oblique of the lunar far-side scene.
SO-168Overexposed - re-entry. Underexposed - chute deployment.
SO-368Frames 1-162 Not plotted. LM photography of CSM only.Frames 163-2790 Sequence from 115°E to 74°E. LM photography of CSM with lunar farside scene in the background.
Frames 2791-3970 Sequence from 38°E to 22°E. LM photography of CSM with lunar nearside scene in the background. Sequence over Lunar Landing Site 2.
Frames 4208-4360 60°N, 119°E (approx. centre of sequence). Oblique sequence of lunar farside single crater (No. 211).
Frames 4361-5058 2°S, 80°E (approx. centre of sequence). High oblique sequence of Earth rise over Mare Smythii-poor scene rendition.
SO-168
Frames 1-929 IVA.Frames 930-1955 Sequence from 22°E to 9°E. Continuous sequence of high to low obliques from Sabine and Ritter to Godin.
Frames 1956-2234 LM photography of CSM.
SO-368Frames 1-2104 Views of Earth. Frames 2105-2625 Not located. High to low obliques from LM. Overlapping sequence of lunar farside scene.Frames 2626-2632 10°N, 45°E (Approximate centre of sequence). Low to near vertical sequence taken from LM. Partial overlap of lunar nearside scene - Messier, Messier A, and Secchi - predominant craters.
Frames 2683-2862 16°S, 30°E (Approximate centre of sequence). High obliques taken near terminator - Theophilus, Madler, and Isidorus - predominant craters.
Frames 2863-3240 10°N, 103°E (Approximate centre of sequence). High obliques of lunar farside scene - craters not named - Nos. are 197, 198, 199.
Frames 3241-3329 12°N, 85°E (Approximate center of sequence). High obliques of lunar farside scene - Neper, Goddard, and the Mare Marginis - predominant features.
SO-368Frames 1-977 Sequence starts at 43°E and ends at 4°W. Sequence starts with high obliques at edge of Sea of Fertility and passes over Maskelyne, Lunar Landing Site 2, Sabine and Ritter, and Lunar Landing Site 3.Frames 977-end. Panoramic high obliques of Tsiolkovski, quarter, half, and full Moon, and Earth.
SO-368Magazine details from the Apollo 10 Photography Index NSSDC 69-14Frames 1-1492 Not plotted. Docking-farside scene in background.Frames 1493-2050 Sequence from 164°E to 144°E. Continuous high to low oblique sequences of lunar farside scene. Features not named.
Frames 2051-3603 Not plotted. Broken series of frames of hand-held telephoto panoramic spots of lunar farside scene; mostly low obliques and near vertical. Locations questionable.
Frames 3604-5614 Sequence from 44°E to 26°E. High altitude continuous, low oblique to near vertical sequence from edge of Mare Fecunditatis over Censorinus into the Mare Tranquillitatis.
The Data Acquisition Camera is a modified movie camera and is an improved version of the earlier Gemini-type 16-mm sequence camera equipped with new-type external film magazines which greatly enhance the photographic capabilities. Primary use of the camera is to obtain sequential photographic data during manned flights. It is used for documentary photography of crew activity within the CM and for recording scenes exterior to the spacecraft. Bracketry installations at each rendezvous window facilitate use of the camera for CSM-LM docking photography to recording engineering data. Camera modes of operation (frame rates) are variable as follows: time, 1 frame per second (fps), 6 fps, 12 fps, and 24 fps. Shutter speeds are independent of frame rate and include 1/60 second, 1/125 second, 1/250 second, 1/500 second and 1/1000 second. Camera power is obtained from the spacecraft electrical system via panel-mounted 28V DC utility receptacles. Camera operation is manually controlled by an On-Off switch located on the front of the camera. Camera weight, less film magazine, is 1.8 pounds (0.8 kg). When mounted at either spacecraft rendezvous window, the camera line-of-sight is parallel (+2 degrees) to the CM X-axis. Camera accessories include a power cable, film magazines, lenses, right angle mirror, and a ring sight, which are described in the following paragraphs. The remote control cable, can also be used with the 16-mm Data Acquisition Camera.
Power Cable. The power cable provides the necessary connection between the spacecraft electrical power system and the 16-mm camera. The cable is approximately 108 inches (2.74m) long and weighs approximately 0.23 pound (0.4kg). 28-Volt DC utility receptacles are located on spacecraft panels 15, 16, and 100.
16 mm Film Magazine. Film for each mission is supplied in preloaded film magazines that may be easily installed and/or removed from the camera by a gloved crew member. Film capacity is 130 feet (40 metres) of thin base film. Total weight of magazine with film is approximately one pound (0.4kg). Magazine run-time versus frame rate is from 87 minutes at one fps to 3.6 minutes at 24 fps. Each magazine has a film-remaining indicator plus an end-of-film red indicator light. Future plans include film magazines of 400-foot capacity. Quantity and type of film supplied is determined by mission requirements.
Lenses. Three lenses of different focal length are provided for use on the 16-mm camera.
[Above details from the Apollo 16 Flight Journal.]
Last updated: 2018-06-04
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