Kids & Women Fashion Show

WHY SNAPINTUITION

 

Beautiful photograph is a genre of photography that involves shooting close-up images of subjects, highlighting their attractive features for editorial, commercial, or personal purposes, where an extra effort is made to capture the photo from the perfect angle. This perfectly-timed photo looks like it took a lot of patience and skill – definitely the work of a pro! Excellent use of blur effect!Taking about me, I am Joydeep Roy, working in the corporate field for the past more than a decade. I belong a place that naturally gives birth to a lot of nostalgic and beautiful photographs in itself- Kalimpong, in the hills of Darjeeling. I have spent twenty-four years of life with the stary of education and completion of graduation (B.Sc.- Zoology Honors from Kalimpong government college simultaneously being a part of National Cadet Corps- Army Wing, with completion of C certificate A grade 2004),Raised up in such a place dwelled with the nostalgia and the feeling of nature imbibing in one’s soul the first thought that comes in mind is to get the memories captured so that no matter wherever life takes in the long run, those photos would always carry the same sense of belonging although one stays far away from one’s own land.

My interest of photography is actually deep seeded and was sown probably in my subconscious mind when I used to sit with my father in the dark room for printing the photographs from 35mm film. So, travelling through a small retrospective of how photography developed as a hobby in me, I need to take you all to my past, my father used to own 3 vintage cameras - AgfaIsolette iii folding camera- Made in Germany, Zenit ET with Helios 44-2 lens- Made in Russia(then Soviet Union (USSR), Zorki 4- Made in Russia (then Soviet Union (USSR), moreover he designed an Enlarger himself for printing black and white photographs. The enlarger is currently in dismantled status as it’s been more than 32 years it’s been used, the last time that enlarger was used, so far I remember was in 1993…. although I would diagrammatically show as to how the Enlarger was designed. As far as my memory goes those days the photo printing paper used to come, the orange box of Agfa photo papers covered in black plastic sheet to prevent light infiltration.

Talking about the cameras, I first handled the camera when I was in the 5th standard, at that time I was just aware that it was a camera however later ion came to know about the details

Agfa Isolette iii folding camera

The Isolette III (1951-60) is the best-specified Isolette, with an uncoupled rangefinder. The rangefinder is operated with a small knurled thumb-wheel on the right hand of the raised part of the top housing, and the distance is read off and transferred to the lens, which has front-element focusing like all the Isolettes. The lens is either an 85 mm f/4.5 Apotar, with a Pronto or Prontor SV or SVS shutter (all of these are synchronised), or a Solinar, which can be either an 85 mm f/4.5 with a Synchro-Compur shutter in earlier cameras, or a 75 mm f/3.5 with a Prontor SVS or Synchro-Compur in later ones. Some of these f/3.5 Solinar lenses take 32 mm accessories, not the 30 mm ones that fit other Isolettes.

Lens:

focal length:

apertures:

focus range:

lens fitting:

shutter:

speeds:

flash:

film size:

Apotar

85 mm

ƒ/4.5 to ƒ/32

3.5 feet (1 metre)

fixed

Prontor SV

1 to 1/300 s

PC socket

120 mm

 

Zenit ET SLR

Unlike most SLRs, the Zenit ET uses an uncoupled selenium light meter which is located directly above the M42 lens mount. A flash sync socket can be found between the light meter cell and the Zenit badge with a self-timer just beneath it. The film rewind knob and exposure calculator can be found on the user’s left-hand side of the ET’s top plate followed by the readout for the light meter and then the hot shoe. On the other side of the hot shoe is a shutter speed selector, threaded shutter button (to trigger the ET’s cloth shutter), and the film advance lever with integrated frame counter. The only things on the bottom are the tripod socket and a serial number

Manufacturer:

Origin:

Made in:

Introduced:

Type:

Lens Mount:

Format:

Dimensions:

VileiskiyZavod Zenit for KMZ

Soviet Union (modern day Belarus)

Vilejka, USSR (modern day Belarus)

1981

Single Lens Reflex

M42 Screw Mount

135 Film

13.5 x 9.6 x 4.9 cm (body only)

13.5 x 9.6 x 9.2 cm (with lens)

 

ZORKI 4

The Zorki 4 is a 35mm rangefinder camera, manufactured by KMZ near Moscow in the former USSR. Produced between 1956 and 1973, there were 1715677 made in the time. ЗОРКИЙ = Zorki means 'sharp sight' in Russian. The Zorki-4 was possibly the most popular of all Zorki cameras and the first to be exported in large numbers to the west. Exported versions are easily identified as they have text in Latin script whereas those produced for the domestic market have Cyrillic text.

Manufacturer:

Date of Production:

Type of Camera:

Film Type:

Lens:

shutter:

Shutter speed range:

Weight:

KMZ

1956-73

Rangefinder

35mm

M39 Screw mount

Cloth focal plane

1s-1/1000th + B

687g

 

The above mentioned cameras are the ones which my family has an an antique predservation, so from here as I develepoed a taste for photography, I understood as well that every photograph speaks sor iteslf ansd every photograph has its opwn story. The only point being the mind that is clicking the photograph has to perceive that story first wich then comes as an output through the device called the camera on the piece of paper on which it is printed. To my audience and the vast ocean of customers ny attempt is to provide them withn the those photographic piece that would create a feeling of Noatalgia along with the quality image that every customer demands.

 

RETROSPECTIVE OF PHOTOGRAPHIC ERA

Migrating in the era of the advanced and digital photography from since 5th and 4th century BC to the 21st century, if we look back, we have actually traversed a long way since the first description of camera which was done in 960-1040 BC by an Arab physicist Ibn Al-Haytham the camera obscura as well as the first pin hole camera. he invention of the camera has been traced back to the work of Ibn Al-Haytham While the effects of a single light passing through a pinhole had been described earlier, Ibn Al-Haytham gave the first correct analysis of the camera obscura including the first geometrical and quantitative descriptions of the phenomenon and was the first to use a screen in a dark room so that an image from one side of a hole in the surface could be projected onto a screen on the other side. He also first understood the relationship between the  and the pinhole, and performed early experiments with laying the foundations for the invention of photography in the 19th century.

Camera obscura and the beginnings of photography

Later Leonardo da Vinci mentions natural camera obscure that are formed by dark caves on the edge of a sunlit valley. A hole in the cave wall will act as a pinhole camera and project a laterally reversed, upside down image on a piece of paper. Renaissance painters used the camera obscura which, in fact, gives the optical rendering in colour that dominates Western Art. It is a box with a small hole in one side, which allows specific light rays to enter, projecting an inverted image onto a viewing screen or paper. The birth of photography was then concerned with inventing means to capture and keep the image produced by the camera obscura. Albertus Magnus (1193–1280) discovered silver nitrate, and Georg Fabricius (1516–1571) discovered silver chloride, and the techniques described in Ibn Al-Haytham’s Book of Optics are capable of producing primitive photographs using medieval materials. Daniele Barbaro described a diaphragm in 1566. Wilhelm Homberg described how light darkened some chemicals (photochemical effect) in 1694.The fiction book Giphantie, published in 1760, by French author Tiphaigne de la Roche, described what can be interpreted as photography. Around the year 1800, British inventor Thomas Wedgwood made the first known attempt to capture the image in a camera obscura by means of a light-sensitive substance. He used paper or white leather treated with silver nitrate. Although he succeeded in capturing the shadows of objects placed on the surface in direct sunlight, and even made shadow copies of paintings on glass, it was reported in 1802 that "the images formed by means of a camera obscura have been found too faint to produce, in any moderate time, an effect upon the nitrate of silver." The shadow images eventually darkened all over.Focussing to the invention of photography, the first permanent photoetching was an image produced in 1822 by the French inventor Nicephore Niépce, but it was destroyed in a later attempt to make prints from it. Niépce was successful again in 1825. In 1826 he made the View from the Window at Le Gras, the earliest surviving photograph from nature (i.e., of the image of a real-world scene, as formed in a camera obscura by a lens).he sought to greatly improve his bitumen process or replace it with one that was more practical. In partnership with Louis Daguerre, he worked out post-exposure processing methods that produced visually superior results and replaced the bitumen with a more light-sensitive resin, but hours of exposure in the camera were still required. With an eye to eventual commercial exploitation, the partners opted for total secrecy.

The plate was exposed under an ordinary engraving and copied it by photographic means. This was a step towards the first permanent photograph taken with a camera.

The plate was exposed under an ordinary engraving and copied it by photographic means. This was a step towards the first permanent photograph taken with a camera. In Brazil, Hercules Florence had apparently started working out a silver-salt-based paper process in 1832, later naming it Photographie. Meanwhile, a British inventor, William Fox Talbot, had succeeded in making crude but reasonably light-fast silver images on paper as early as 1834 but had kept his work secret. After reading about Daguerre's invention in January 1839, Talbot published his hitherto secret method and set about improving on it. At first, like other pre-daguerreotype processes, Talbot's paper-based photography typically required hours-long exposures in the camera, but in 1840 he created the calotype process, which used the chemical development of a latent image to greatly reduce the exposure needed and compete with the daguerreotype. In both its original and calotype forms, Talbot's process, unlike Daguerre's, created a translucent negative which could be used to print multiple positive copies; this is the basis of most modern chemical photography up to the present day, as daguerreotypes could only be replicated by rephotographing them with a camera. Talbot’s famous tiny paper negative of the Oriel window in Lacock Abbey, one of a number of cameras photographs he made in the summer of 1835, may be the oldest camera negative in existence. Now as it says that history was not made in one day, so it is not possible to visualise the whole era in couple of pages, lets quickly jump to the invention of the celluloid film and camera in a quick glance, if we look int the evolution of the photographic era we see that From ancient times to 1894: motion picture technologies before film,

The technology of film emerged mostly from developments and achievements in the fields of projection, lenses, photography and optics. Early techniques that involve moving pictures and/or projection include:

Shadowgraphy (probably in practice since prehistoric times)

Camera obscura (a natural phenomenon that has possibly been used as an artistic aid since prehistoric times)

Shadow puppetry (possibly originated around 200 BCE in Central Asia, India, Indonesia or China)

Magic lantern (developed in the 1650s, preceded by some incidental and/or inferior projectors)

stroboscopic "persistence of vision" animation devices (phénakisticope since 1833, zoetrope since 1866, flip book since 1868).

Coming to the Development of celluloid films and camera I am taking you through a small journey. As I have already spoken about the Camera obscura before 17th century.  Before the invention of photographic processes, there was no way to preserve the images produced by these cameras apart from manually tracing them. The earliest cameras were room-sized, with space for one or more people inside; these gradually evolved into more and more compact models. By Niépce's time, portable box camera obscurae suitable for photography were readily available. The first camera that was small and portable enough to be practical for photography was envisioned by Johann Zahn in 1685, though it would be almost 150 years before such an application was possible.

Now coming to the early photographic era in 18th and 19th centuries, the first permanent photograph of a camera image was made in 1825 by Joseph Nicéphore Niépce using a sliding wooden box camera made by Charles and Vincent Chevalier in Paris. Niépce had been experimenting with ways to fix the images of a camera obscura since 1816. The photograph Niépce succeeded in creating shows the view from his window. It was made using an 8-hour exposure on pewter coated with bitumen.Niépce called his process "heliography".Niépce corresponded with the inventor Louis-Jacques-Mandé Daguerre, and the pair entered into a partnership to improve the heliographic process. Niépce had experimented further with other chemicals, to improve contrast in his heliographs. Daguerre contributed an improved camera obscura design, but the partnership ended when Niépce died in 1833. Daguerre succeeded in developing a high-contrast and extremely sharp image by exposing on a plate coated with silver iodide, and exposing this plate again to mercury vapor. By 1837, he was able to fix the images with a common salt solution. He called this process Daguerreotype, and tried unsuccessfully for a couple of years to commercialize it. Eventually, with help of the scientist and politician François Arago, the French government acquired Daguerre's process for public release. In exchange, pensions were provided to Daguerre as well as Niépce's son, Isidore. The first photographic camera developed for commercial manufacture was a daguerreotype camera, built by Alphonse Giroux in 1839. Giroux signed a contract with Daguerre and Isidore Niépce to produce the cameras in France,with each device and accessories costing 400 francs.The camera was a double-box design, with a landscape lens fitted to the outer box, and a holder for a ground glass focusing screen and image plate on the inner box. By sliding the inner box, objects at various distances could be brought to as sharp a focus as desired. After a satisfactory image had been focused on the screen, the screen was replaced with a sensitized plate. A knurled wheel controlled a copper flap in front of the lens, which functioned as a shutter. The early daguerreotype cameras required long exposure times, which in 1839 could be from 5 to 30 minutes.

The Giroux daguerreotype camera made by Maison Susse Frères in 1839, with a lens by Charles Chevalier, the first to be commercially produced.

Daguerreotype cameras formed images on silvered copper plates and images were only able to develop with mercury vapor.The earliest daguerreotype cameras required several minutes to half an hour to expose images on the plates. By 1840, exposure times were reduced to just a few seconds owing to improvements in the chemical preparation and development processes, and to advances in lens design.American daguerreotypists introduced manufactured plates in mass production, and plate sizes became internationally standardized: whole plate (6.5 x 8.5 inches), three-quarter plate (5.5 × 7 1/8 inches), half plate (4.5 x 5.5 inches), quarter plate (3.25 x 4.25 inches), sixth plate (2.75 x 3.25 inches), and ninth plate (2 x 2.5 inches).Plates were often cut to fit cases and jewelry with circular and oval shapes. Larger plates were produced, with sizes such as 9 x 13 inches ("double-whole" plate), or 13.5 x 16.5 inches (Southworth & Hawes' plate).

The collodion wet plate process that gradually replaced the daguerreotype during the 1850s required photographers to coat and sensitize thin glass or iron plates shortly before use and expose them in the camera while still wet. Early wet plate cameras were very simple and little different from Daguerreotype cameras, but more sophisticated designs eventually appeared. The Dubroni of 1864 allowed the sensitizing and developing of the plates to be carried out inside the camera itself rather than in a separate darkroom. Other cameras were fitted with multiple lenses for photographing several small portraits on a single larger plate, useful when making cartes de visite. It was during the wet plate era that the use of bellows for focusing became widespread, making the bulkier and less easily adjusted nested box design obsolete.For many years, exposure times were long enough that the photographer simply removed the lens cap, counted off the number of seconds (or minutes) estimated to be required by the lighting conditions, then replaced the cap. As more sensitive photographic materials became available, cameras began to incorporate mechanical shutter mechanisms that allowed very short and accurately timed exposures to be made.

The use of photographic film was pioneered by George Eastman, who started manufacturing paper film in 1885 before switching to celluloid in 1889. His first camera, which he called the "Kodak," was first offered for sale in 1888. It was a very simple box camera with a fixed-focus lens and single shutter speed, which along with its relatively low price appealed to the average consumer. The Kodak came pre-loaded with enough film for 100 exposures and needed to be sent back to the factory for processing and reloading when the roll was finished. By the end of the 19th century Eastman had expanded his lineup to several models including both box and folding cameras.

EARLY FIXED IMAGES: The first partially successful photograph of a camera image was made in approximately 1816 by Nicéphore Niépce,using a very small camera of his own making and a piece of paper coated with silver chloride, which darkened where it was exposed to light. No means of removing the remaining unaffected silver chloride was known to Niépce, so the photograph was not permanent, eventually becoming entirely darkened by the overall exposure to light necessary for viewing it. In the mid-1820s, Niépce used a sliding wooden box camera made by Parisian opticians Charles and Vincent Chevalier, to experiment with photography on surfaces thinly coated with Bitumen of Judea.The bitumen slowly hardened in the brightest areas of the image. The unhardened bitumen was then dissolved away. One of those photographs has survived.

DRY PLATES: Collodion dry plates had been available since 1857, thanks to the work of Désiré van Monckhoven, but it was not until the invention of the gelatin dry plate in 1871 by Richard Leach Maddox that the wet plate process could be rivaled in quality and speed. The 1878 discovery that heat-ripening a gelatin emulsion greatly increased its sensitivity finally made so-called "instantaneous" snapshot exposures practical. For the first time, a tripod or other support was no longer an absolute necessity. With daylight and a fast plate or film, a small camera could be hand-held while taking the picture. The ranks of amateur photographers swelled and informal "candid" portraits became popular. There was a proliferation of camera designs, from single- and twin-lens reflexes to large and bulky field cameras, simple box cameras, and even "detective cameras" disguised as pocket watches, hats, or other objects.The short exposure times that made candid photography possible also necessitated another innovation, the mechanical shutter. The very first shutters were separate accessories, though built-in shutters were common by the end of the 19th century.

DISCOVERY OF PHOTOGRAPHIC FILM: The use of photographic film was pioneered by George Eastman, who started manufacturing paper film in 1885 before switching to celluloid in 1888–1889. His first camera, which he called the "Kodak", was first offered for sale in 1888. It was a very simple box camera with a fixed-focus lens and single shutter speed, which along with its relatively low price appealed to the average consumer. The Kodak came pre-loaded with enough film for 100 exposures and needed to be sent back to the factory for processing and reloading when the roll was finished. By the end of the 19th century Eastman had expanded his lineup to several models including both box and folding cameras.

In 1900, Eastman took mass-market photography one step further with the Brownie, a simple and very inexpensive box camera that introduced the concept of the snapshot. The Brownie was extremely popular and various models remained on sale until the 1960s.

Film also allowed the movie camera to develop from an expensive toy to a practical commercial tool.

Despite the advances in low-cost photography made possible by Eastman, plate cameras still offered higher-quality prints and remained popular well into the 20th century. To compete with rollfilm cameras, which offered a larger number of exposures per loading, many inexpensive plate cameras from this era were equipped with magazines to hold several plates at once. Special backs for plate cameras allowing them to use film packs or rollfilm were also available, as were backs that enabled rollfilm cameras to use plates.

Except for a few special types such as Schmidt cameras, most professional astrographs continued to use plates until the end of the 20th century when electronic photography replaced them.

THE 35mm FILM: Oskar Barnack, who was in charge of research and development at Leitz, decided to investigate using 35 mm cine film for still cameras while attempting to build a compact camera capable of making high-quality enlargements. He built his prototype 35 mm camera (Ur-Leica) around 1913, though further development was delayed for several years by World War I. It wasn't until after World War I that Leica commercialized their first 35 mm cameras. Leitz test-marketed the design between 1923 and 1924, receiving enough positive feedback that the camera was put into production as the Leica I (for Leitz camera) in 1925. The Leica's immediate popularity spawned a number of competitors, most notably the Contax (introduced in 1932), and cemented the position of 35 mm as the format of choice for high-end compact cameras.Kodak got into the market with the Retina I in 1934, which introduced the 135-cartridge used in all modern 35 mm cameras. Although the Retina was comparatively inexpensive, 35 mm cameras were still out of reach for most people and rollfilm remained the format of choice for mass-market cameras. This changed in 1936 with the introduction of the inexpensive Argus A and to an even greater extent in 1939 with the arrival of the immensely popular Argus C3. Although the cheapest cameras still used rollfilm, 35 mm film had come to dominate the market by the time the C3 was discontinued in 1966.The fledgling Japanese camera industry began to take off in 1936 with the Canon 35 mm rangefinder, an improved version of the 1933 Kwanon prototype. Japanese cameras would begin to become popular in the West after Korean War veterans and soldiers stationed in Japan brought them back to the United States and elsewhere.

THE TWIN LENS REFLEX & SINGLE LENS REFLEX

The first practical reflex camera was the Franke & Heidecke Rolleiflex medium format TLR of 1928. Though both single- and twin-lens reflex cameras had been available for decades, they were too bulky to achieve much popularity. The Rolleiflex, however, was sufficiently compact to achieve widespread popularity and the medium-format TLR design became popular for both high- and low-end cameras.A similar revolution in SLR design began in 1933 with the introduction of the Ihagee Exakta, a compact SLR which used 127 rollfilm. This was followed three years later by the first Western SLR to use 135 films (otherwise known as 35 mm film), the Kine Exakta (World's first true 35 mm SLR was Soviet "Sport" camera, marketed several months before Kine Exakta, though "Sport" used its own film cartridge). The 35 mm SLR design gained immediate popularity and there was an explosion of new models and innovative features after World War II. There were also a few 35 mm TLRs, the best-known of which was the Contaflex of 1935, but for the most part these met with little success.The first major post-war SLR innovation was the eye-level viewfinder, which first appeared on the Hungarian Duflex in 1947 and was refined in 1948 with the Contax S, the first camera to use a pentaprism. Prior to this, all SLRs were equipped with waist-level focusing screens. The Duflex was also the first SLR with an instant-return mirror, which prevented the viewfinder from being blacked out after each exposure. This same time period also saw the introduction of the Hasselblad 1600F, which set the standard for medium format SLRs for decades.In 1952 the Asahi Optical Company (which later became well known for its Pentax cameras) introduced the first Japanese SLR using 135 films, the Asahiflex. Several other Japanese camera makers also entered the SLR market in the 1950s, including Canon, Yashica, and Nikon. Nikon's entry, the Nikon F, had a full line of interchangeable components and accessories and is generally regarded as the first Japanese system camera. It was the F, along with the earlier S series of rangefinder cameras, that helped establish Nikon's reputation as a maker of professional-quality equipment and one of the world's best-known brands.

Nikon F of 1959 – the first Japanese system camera

 

DIGITAL IMAGING HISTORY AND DEVELPOMENT OF DIGITAL CAMERAS

The first digital image was produced in 1920, by the Bartlane cable picture transmission system. British inventors, Harry G. Bartholomew and Maynard D. McFarlane, developed this method. The process consisted of “a series of negatives on zinc plates that were exposed for varying lengths of time, thus producing varying densities,”. The Bartlane cable picture transmission system generated at both its transmitter and its receiver end a punched data card or tape that was recreated as an image. In 1957, Russell A. Kirsch produced a device that generated digital data that could be stored in a computer; this used a drum scanner and photomultiplier tube. Digital imaging was developed in the 1960s and 1970s, largely to avoid the operational weaknesses of film cameras, for scientific and military missions including the KH-11 program. As digital technology became cheaper in later decades, it replaced the old film methods for many purposes. In the early 1960s, while developing compact, lightweight, portable equipment for the onboard non-destructive testing of naval aircraft, Frederick G. Weighart and James F. McNulty (U.S. radio engineer) at Automation Industries, Inc., then, in El Segundo, California co-invented the first apparatus to generate a digital image in real-time, which image was a fluoroscopic digital radiograph. Square wave signals were detected on the fluorescent screen of a fluoroscope to create the image. The charge-coupled device was invented by Willard S. Boyle and George E. Smith at Bell Labs in 1969.While researching MOS technology, they realized that an electric charge was the analogy of the magnetic bubble and that it could be stored on a tiny MOS capacitor. As it was fairly straightforward to fabricate a series of MOS capacitors in a row, they connected a suitable voltage to them so that the charge could be stepped along from one to the next. The CCD is a semiconductor circuit that was later used in the first digital video cameras for television broadcasting. Early CCD sensors suffered from shutter lag. This was largely resolved with the invention of the pinned photodiode (PPD). It was invented by Nobukazu Teranishi, Hiromitsu Shiraki and Yasuo Ishihara at NEC in 1980. It was a photodetector structure with low lag, low noise, high quantum efficiency and low dark current. In 1987, the PPD began to be incorporated into most CCD devices, becoming a fixture in consumer electronic video cameras and then digital still cameras. Since then, the PPD has been used in nearly all CCD sensors and then CMOS sensors. The NMOS active-pixel sensor (APS) was invented by Olympus in Japan during the mid-1980s. This was enabled by advances in MOS semiconductor device fabrication, with MOSFET scaling reaching smaller micron and then sub-micron levels. The NMOS APS was fabricated by Tsutomu Nakamura's team at Olympus in 1985. The CMOS active-pixel sensor (CMOS sensor) was later developed by Eric Fossum's team at the NASA Jet Propulsion Laboratory in 1993. By 2007, sales of CMOS sensors had surpassed CCD sensors. These different scanning ideas were the basis of the first designs of digital camera. Early cameras took a long time to capture an image and were poorly suited for consumer purposes. It wasn't until the adoption of the CCD (charge-coupled device) that the digital camera really took off. The CCD became part of the imaging systems used in telescopes, the first black-and-white digital cameras in the 1980s. Color was eventually added to the CCD and is a usual feature of cameras today.

This was a short attempt to projetc infront of my viewers that how today in the 21st century the advanced photographic system developed from the ancient era. Today what we have digital photography available through various modes be it DSLR or a smart phone is actually a result of the intense research and development from ages that has been going on and the journey still continues.

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