Recorded in the Atlantic Ocean from Harbor Branch Oceanographic. Otis Barton joins the Johnson Sea Link Sub Crew for a commemorative dive. Barton was a pioneer underwater explorer and the designer of the bathysphere (1930). This recording is one of four that documents the conversation between Barton and the other diver during the dive. The view is solely of inside the submersible and of the two men. The bathysphere was designed by underwater explorers Otis Barton and William Beebee and took its first plunge in 1930. A bathysphere consists of a steel sphere with small circular windows of fused quartz. Inside it are the required oxygen tanks. During dives, these vessels were lowered into the water with cables and chains. During its first year, the bathysphere design could already dive to depths of 1,426 feet, two years later breaking records at 3,028 feet. Many discoveries about the deep sea were made from the confines of these vessels.
Recorded in the Atlantic Ocean from Harbor Branch Oceanographic. Otis Barton joins the Johnson Sea Link Sub Crew for a commemorative dive. Barton was a pioneer underwater explorer and the designer of the bathysphere (1930). This recording documents the above water conversation after the dive. This is the last of four recordings that document this commemorative dive. The bathysphere was designed by underwater explorers Otis Barton and William Beebee and took its first plunge in 1930. A bathysphere consists of a steel sphere with small circular windows of fused quartz. Inside it are the required oxygen tanks. During dives, these vessels were lowered into the water with cables and chains. During its first year, the bathysphere design could already dive to depths of 1,426 feet, two years later breaking records at 3,028 feet. Many discoveries about the deep sea were made from the confines of these vessels.
Recorded in the Atlantic Ocean from Harbor Branch Oceanographic. Otis Barton joins the Johnson Sea Link Sub Crew for a commemorative dive. Barton was a pioneer underwater explorer and the designer of the bathysphere (1930). This recording is one of four that documents the conversation between Barton and the other diver during the dive. The view is solely of inside the submersible and of the two men. The bathysphere was designed by underwater explorers Otis Barton and William Beebee and took its first plunge in 1930. A bathysphere consists of a steel sphere with small circular windows of fused quartz. Inside it are the required oxygen tanks. During dives, these vessels were lowered into the water with cables and chains. During its first year, the bathysphere design could already dive to depths of 1,426 feet, two years later breaking records at 3,028 feet. Many discoveries about the deep sea were made from the confines of these vessels.
Recorded in the Atlantic Ocean from Harbor Branch Oceanographic. Otis Barton joins the Johnson Sea Link Sub Crew for a commemorative dive. Barton was a pioneer underwater explorer and the designer of the bathysphere (1930). This recording is one of four that documents the conversation between Barton and the other diver during the dive. The view is solely of inside the submersible and of the two men. The bathysphere was designed by underwater explorers Otis Barton and William Beebee and took its first plunge in 1930. A bathysphere consists of a steel sphere with small circular windows of fused quartz. Inside it are the required oxygen tanks. During dives, these vessels were lowered into the water with cables and chains. During its first year, the bathysphere design could already dive to depths of 1,426 feet, two years later breaking records at 3,028 feet. Many discoveries about the deep sea were made from the confines of these vessels.
Recorded in the Atlantic Ocean from Harbor Branch Oceanographic. Otis Barton joins the Johnson Sea Link Sub Crew for a commemorative dive. Barton was a pioneer underwater explorer and the designer of the bathysphere (1930). This recording includes the launch of the submersible into the water. This recording is the first of four that documents the conversation between Barton and the other diver during the dive. Most of the recording is of inside the submersible and of the two men. The bathysphere was designed by underwater explorers Otis Barton and William Beebee and took its first plunge in 1930. A bathysphere consists of a steel sphere with small circular windows of fused quartz. Inside it are the required oxygen tanks. During dives, these vessels were lowered into the water with cables and chains. During its first year, the bathysphere design could already dive to depths of 1,426 feet, two years later breaking records at 3,028 feet. Many discoveries about the deep sea were made from the confines of these vessels.
This documentary explores the diverse types of aquatic life that live in California’s underwater state parks. The focus of this film is on ecology and aquatic diversity but also mentioned are the relationship between land and sea along California’s coastline, and the types of diving possible in individual parks.
The recording takes place at the Offshore Training Research Centre (OTRC) in College Station Texas. The recording is raw footage which documents trainees learning how to pilot deep sea submersibles in an interior training facility. Ian Griffin of Nuytco Research, lead instructor of Training for Sustainable Seas Expeditions at OTRC, teaches students how to pilot the Newt and the Deep Rover submersibles. Trainees include Sylvia Earl, explorer in residence at National Geographic, who helped develop the Deep Rover and Robert Furgason, President of Texas University Corpus Christi. Dr. Joe MacInnis is behind the camera.
The recording takes place at the Offshore Training Research Centre (OTRC) in College Station Texas. The recording is raw footage which documents trainees learning how to pilot deep sea submersibles in an interior training facility. Ian Griffin of Nuytco Research, lead instructor of Training for Sustainable Seas Expeditions at OTRC, teaches students how to pilot the Deep Worker and the Deep Rover submersibles. Dr. Joe MacInnis pilots a submersible in the pool. Other traines include Sylvia Earl, explorer in residence at National Geographic, who helped develop the Deep Rover and Wes Turner, biology professor at Texas University Corpus Christi. The recording also contains an interview with Phil Nuytten of Nuytco Research in which he explains ideas behind the design of the Deep Worker submersible. MacInnis is behind the camera.
The recording takes place at the Offshore Training Research Centre (OTRC) in College Station Texas. The recording is raw footage which documents Dr. Joe MacInnis learning how to pilot the deep sea submersible Deep Rover in an interior training facility. Ian Griffin of Nuytco Research, lead instructor of Training for Sustainable Seas Expeditions at OTRC is the instructor.
Item is an auto-release shutter mechanism for still cameras, which allowed one to take self pictures. By hooking the shoulder of the cable shutter release from the camera into the extended spring clip, an additional 10 second period was available to take the picture after pushing up the release lever. Instructions are attached.
Item is a mechanical shutter with pneumatic operation, includes bulb and tubing. The Packard-Ideal shutter is used behind the lens in large-format view cameras.
Item is an Infrared remote control (two pieces, transmiter and receiver) for Ektagraphic slide projectors. These units operates the advance/reverse focus functions function of the projector. Wireless receiver is connected to projector via the wired remote jack. The item comes with original box.
These allow Polaroid Films to be used with professional 4X5 cameras of various manufacturers these holders would fit standard 4X% camera backs. They were often used for test shots
Item consists of three Wratten stained gelatine light filters. There is a red, blue, and green one. Each filter is packaged in an individual envelope with use and care instructions.
Item consists of a Kodak B-C Flasholder. It features a 22.5-volt battery-condenser system for dependable flash synchronization and can be used with most flash-synchronized cameras, such as the Brownie Six-20 models.
Item consists of a Kodak Floasholder Extension Unit Model B. It is in its original packaging, containing flash holder, clamp, plastic guard, and two 2-way flashguard envelopes.
Item consists of One Pair Kodak Handy Reflectors ...And One Handy Measure for Picture Making at Night. Included in a yellow and green paper envelope with black text are 2 foldable reflecting cones, 2 metal rings, and ABC intruction cards.
Item is a clockwork timer that will switch an enlarger On and Off to a preset timefor exposure. A time scale allows settings form 0 to 60 seconds. One can lock a time to repeat it, if neccesary. Includes instruction manual
Item consists of an Eastman Studio Scale. It has a wooden base, a 6 piece weight set and a plaque that reads Avoirdupois Weight. It was used to facilitate the mixing of chemicals in a photographer's dark room.
Item consists of a Kodak Reflection-Transmission Color Densitometer Model RT. When using the transmission mode, the densitometer can be used to measure the density of a negative, and when using the reflection mode, it can measure the saturation of a resulting print. This allows for a photographer to choose the correct paper and exposure to make prints with, without the need to experiment with test strips.
Item consists of two darkroom lights. Each has a wooden base holding a metal cylinder that surrounds a darkroom bulb. The power cord is thread through the wooden base to connect to the bulb. Only one still has a bulb. The inside of both metal cylinders has been painted white.
Item is a cardboard box containing 3 small vails of powdered dyes (magenta, cyan and yellow) for use in the Eastman Kodak dye-transfer process known as the "Eastman Wash-off Relief" process. The process was mostly in use in the graphic arts and used Kodachrome film.
Item is a half pound bottle of Eastman Permanent Crystal Pyro, the "superior form of pyrogallic acid." This form of developing agent was very popular in the 1800s to 1920s.
Item consists of a roll of Eastman Plus-X Reversal Safety Film for 16mm cameras in original packaging. It is in a black metal canister sealed with black fabric tape.
File consists of 4 rolls of Kodak Professional Portra 120 vivid color color negative film. In original opened package. Unused. Develop before date is 08/2004.
File consists of 23 rolls of 35 mm 100 ISO daylight Ektachrome reversal film for colour slides with 24 exposures each. 13 rolls are individually packaged and 10 form a 10-pack. Develop before dates are 05/2000 to 10/2001.
File consists of 3 rolls packed in 1 5-pack of 35 mm Kodak Professional Portra vivid color 160vc color negative film with 24 exposures. Develop before date is 06/2004.
File consists of 5 rolls in 1 5-pack of 35 mm Kodak Professional Portra natural color 400NC color negative film with 24 exposures. Develop before date is 09/2003.
File consists of 5 rolls of individually packaged 35 mm 100 ISO Kodak Professional Ektar color negative film each with 36 exposures. Samples, not for resale. Develop before dates are 11/2010.
File consists of 2 rolls of individually packaged 35 mm 100 ISO daylight Ektachrome reversal film for colour slides with 36 exposures each. Develop before dates are both 11/2001.
File consists of 9 rolls of Kodak Advantix ISO 200 APS colour print film in original packaging. 3 rolls have 15 exposures, 3 rolls have 15 exposures, 3 with 25 exposures, and 3 with 40 exposures.
