Sunday, February 24, 2019

LEICA CAMERAS USED BY NASA


An interesting, but relatively unknown fact is that NASA initially had chosen the Leica MDa as the camera to be used on their lunar missions.  The reason was weight.  Of all the systems for the Apollo missions, one could never be tested because of the low gravity of the moon.  That was the lunar take-off module.  To gain as much of a weight advantage as possible, NASA did everything they could to save weight.  That included the camera equipment.  The Leica MDa with 35mm f/1.4 Summilux was definitely lighter than anything Hasselblad, their regular camera of choice, had to offer.  Leitz modified several cameras and lenses to feature large levers to allow camera operation with the bulky gloves of the space suits.  The astronauts chosen for the lunar missions all received extensive training in the use of the camera.

 

 

NASA Leica MDa.  Modifications appear to be a soft shutter release, a larger shutter speed dial, an enlarged film wind lever a large rewind knob and an enlarged lever to open the camera.  The top of the camera also has a beefed up plate with an accessory show attached.  There is also an electronic connection of an unknown purpose in place of the PC connection.
Modifications of the lens are large levers for the aperture and focus settings, all designed for easy operation with the gloves of the space suits.

Yet, as is common knowledge, the Leica never made it to the moon.  The credit goes to one engineer who figured out that the interchangeable film backs for the Hasselblad were lighter than the Leica MDa with its Summilux lens.  Subsequently NASA decided to use the Hasselblad after all.  The Saturn 5 rockets had no problem delivering the payload to the moon.  For the return trip it was subsequently decided to remove the film backs from the cameras and to leave the cameras and lenses on the moon where they still reside today.  A total of 12 Hasselblad cameras and lenses are sitting in the lunar dust, ready to be picked up.

An intriguing question is if they might be still able to operate properly after all these years in the extremely harsh environment of the lunar surface.

Since then a few more details about the NASA – Leica connection have emerged.  One virtually unknown fact is that NASA also used the Leicafelx SL.  For what purpose is unknown at this point.  I have also found that in 1966, NASA ordered 150 Leica cameras.  Unfortunately it was not stated which cameras they were.

 
The camera appears to be without visible modifications other than the deeply knurled shutter speed dial to accommodate the heavy gloves of the space suits.

Already in the earliest stages of the NASA space program, Leica cameras were part of the equation.  One such camera was the Leica Ig.  With this camera astronaut John H. Glenn, Jr., took the first human-shot, color still photographs of the Earth during his three-orbit mission on February 20, 1962. Glenn's pictures paved the way for future Earth photography experiments on American human spaceflight missions.

 

Because Glenn was wearing a spacesuit, complete with helmet during his February 20, 1962 mission, he could not get his eye close to a built-in viewfinder.  Therefore NASA selected the high-quality Leica Ig camera that allowed them to attach a customized viewfinder on top. This special attachment featured a suction cup on the back side to allow Glenn to easily place the device against the visor when he was required to keep it down. The viewfinder was removable when Glenn did not need his visor down, and a velcro strip on the rounded top let him manage its location inside the spacecraft.  Glenn found the camera easy to use, in part because he could exploit the advantages of zero-gravity.

"When I needed both hands, I just let go of the camera and it floated there in front of me," he said in his later memoir.

 

The 1957 Leica Ig was the last Leica screwmount model made, with production ending in 1963.  It was the successor to the If and is the only screwmount camera with the word 'Leica' engraved on the front of the camera. This camera had the same profile as the IIIg but without the viewfinder/rangefinder incorporated into the top.  As with both the Ic and If there were two accessory shoes mounted for attaching a separate viewfinder and rangefinder. The rewind knob was partially recessed into the top plate.  As with the Ic and the If, the Ig was intended for scientific or Visoflex use.

A little known fact is that a Leica M3 accompanied the astronauts on a September 1995 Endeavour space shuttle mission.  As reported by the Houston Chronicle…

 


NASA Photographer Makes History With Trusty Camera

MARK CARREAU Staff
SAT 02/10/1996 HOUSTON CHRONICLE

Odds are that Andrew Patnesky, ""Pat" to his colleagues, has used the vintage Leica camera that swings from his leathery neck like an old dog tag to photograph every American astronaut since Alan Shepard.

It was only fitting that the trademark photo gear with the thick rubber band binding its aging components together accompanied a shuttle crew into orbit recently, something the 75-year-old NASA photographer couldn't do.

""I think the world of that camera," said Patnesky, who shuns more modern gear with the automated features that focus and advance film in favor of the all-manual Leica M3.

""I have other cameras, but they don't measure up," he said. ""Anyone can just go shoot. Anyone can be a photographer, but not everyone can be a photojournalist."

Patnesky fretted over the Leica's absence during its orbital journey aboard the shuttle Endeavour last September. The separation was prolonged for several weeks after the shuttle's return so that the Leica could be unpacked and its journey officially documented.

""I feel kind of naked without it," he joked recently, clearly relieved that the old camera was available once again for his patrols of the space center's astronaut training facilities.

Patnesky staked his claim to the government-owned gear when he spotted it in an equipment closet soon after he joined NASA in 1961. The Johnson Space Center, then known as the Manned Spacecraft Center, was just beginning to take shape in Houston.

""None of the other dingbats would use it. So I said, `Hey, give it to me,' " recalled Patnesky, who spares no one, least of all himself, from his playful verbal digs.

Relying on his 21 years of experience as a photographer with the old U.S. Army Air Corps and then its successor, the Air Force, Patnesky began to chronicle, with the trusty Leica, the personalities who led America to the moon.

In those days, he said, the news media was thirsty for a steady stream of photographs of astronauts as they trained for their Apollo flights in exotic locales, from the Gulf of Mexico where they rehearsed post-splashdown procedures in rough seas to the deserts of Mexico.

During one of the Mexican excursions - it was a training jaunt by Shepard and astronaut Edgar Mitchell to prepare for their Apollo 14 flight - an instructor-geologist challenged Patnesky to descend into a rocky crater for photographs.

As he made his way to the crater floor, Patnesky slipped between the boulders. The Leica's fragile view finder broke away, disappearing between the rocks. Rather than replace the camera, though, he obtained a new view finder and lashed it in place with the first of a succession of wide rubber bands, lending the camera its rag tag character.

To this day Patnesky finds the Leica perfect for his needs, rubber bands and all.

With its precise mechanics and acute optics, the old camera makes little shutter noise and requires no flash when its operator is photographing in the Mission Control Center, the space shuttle simulator or the administrative offices.

""I like to shoot on a noninterference basis," he said. ""That is how you get the best shots."

The strategy has permitted Patnesky to photograph all of the American presidents with astronauts from John Kennedy to Bill Clinton. It allowed him to capture the drama of the Challenger accident as it was reflected in the faces of the personnel in Mission Control, as well as the majesty of Anwar Sadat, the late president of Egypt, during a state visit.

His favorite subjects, though, are the astronauts, from the original Mercury explorers to Neil Armstrong and Buzz Aldrin, the first lunar explorers, and now the shuttle astronauts and their recent Russian cosmonaut guests.

""My friendship with the astronauts means a helluva lot to me. I admire those guys for all the hours they put in," said Patnesky. ""One way or another I've photographed every one of them."

One of 10 children born to a Pennsylvania coal mining family, he commutes 110 miles to work each day from a home north of Houston and shares time with his wife in a second home near San Antonio.

Wiry and healthy, Patnesky will log his 56th complete year of government service on Oct. 1. He is coy about his retirement plans.

But he feels so strongly about his association with the astronauts that he is willing to part with his Leica when he leaves NASA. He wants it to go on display at the Astronaut Hall of Fame, just outside the gates of the Kennedy Space Center in Titusville, Fla.

My continued research into Leica cameras that were used by NASA has yielded another interesting result.  This Leica camera was used in conjunction with a spectrograph and was used on the Gemini V and VIII missions. Longer missions during the Gemini program gave astronauts more time for scientific experiments, often created and monitored by other government agencies or academic institutions. Scientists at the U.S. Weather Bureau (now NOAA) created this camera attachment so it could simultaneously record a spectrum and an infrared image to determine cloud heights.

 
The camera appears to be a model M3.  It is unknown if any special modification were necessary for this specialized use.

It is not known if any current Leica equipment is being used by NASA.  The delay by Leica to introduce top level digital cameras leads me to believe that other manufacturers might have been chosen.  However, this is an ongoing research project and should new information become available, you will read about here.



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13 comments:

  1. It appears that the Leica was modified with large levers to the extend that even the film could be rewound and the baseplate removed for reloading; why else would there be a need to rewind and removal of the baseplate. In view of that, wouldn't even more weight have been saved of the astronauts simply removed the exposed films and brought those back, leaving the cameras on the moon?

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    1. That is an excellent question. It would make sense to leave the cameras and just bring back the exposed film, unless during testing and practicing with the cameras it became apparent that it was too difficult to rewind and reload the film. I am not positive, but I do believe that NASA used films with a special, very thin backing which allowed at least twice the exposures of regular 35mm film. With at least two cameras (or possibly more) for for each astronaut, that would have been at least 140 to 150 exposures.

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  2. Do you know what film the used on the moon?

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    1. As far as I know, all the films were Ektachrome.

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    2. Wouldn't Kodachrome have been better in terms of sharpness and especially longevity?

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    3. That certainly seems to make sense. But Ektachrome offered substantially more extensive development corrections in case the films were not correctly exposed. Ektachrome simply was a more versatile film and, if properly stored, can last virtually as long as Kodachrome.

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    4. Wouldn't the sunny 16 rule be applicable on the moon as it does on earth? Wouldn't that eliminate exposure problems?

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    5. Yes, the sunny 16 rules works just as well on the moon as it does on earth. However, because of the lack of an atmosphere, lighting has a substantially higher contrast on the moon. With some simple exposure/development adjustments, that can easily be compensated for.

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    6. What do you have to do to lower the contrast of film

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    7. Overexpose and underdevelop. That can yield at least a two stop wider exposure range and I am sure, Kodak had a few more tricks up their sleeves to go beyond that if necessary.

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  3. I wonder why they beefed up the top plate and then mounted an accessory shoe onto that?

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    Replies
    1. I have wondered about that as well. I am sure they did not plan on using flash on the moon, and even if they did, that would not require an especially heavy duty top plate. The reason might be that the heavy duty top plate with its accessory shoe was part of the mounting system for the camera. I am fairly certain that it was planned to have the camera mounted on the chest of the space suits as was done with the Hasselblads. The accessory shoe would have been a practical means to remove the camera when necessary. Of course other means to fasten the camera might have been devised as well, but the camera shows no other means to mount it.

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  4. I thought John Glenn used a different camera.

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