Knowledge in Photography


Photography is the process of creating still or moving pictures by recording radiation on a sensitive medium like film or an electronic sensor. The products of photography are called negatives and photographs, the latter being developed from the negatives. Light patterns reflected or emitted by objects activate a sensitive chemical or electronic sensor during a timed exposure usually through a photographic lens in a camera. The camera stores the resulting information chemically or electronically. Photographers control the camera and lens to expose the light recording material to the required amount of light to form a latent image (on film) or raw file (in digital camera) which, after due processing, is converted to a usable image. In digital cameras, instead of film, an electronic image sensor based on light-sensitive devices is used. Photography can also be called an art and good photographers often exhibit their oeuvre like artists exhibit their paintings. In fact, the Greek word for photography means ‘drawing with light’. Photography has many applications in business, science and filmmaking, fashion, tourism, advertising, etc. Thus, there is fashion photography where people specialize in taking pictures of models in such a way that it highlights the designer costumes and accessories they sport. To promote tourism to a particular place, attractive brochures have to be designed. These will feature photographs of the tourist spots. Many industries too prepare brochures and catalogues featuring pictures of their products. In films, still photographers take stills of certain scenes to promote new films in the media. The movie camera is different from still cameras. It takes a rapid sequence of photographs on strips of film. Each series of images forms a frame. The frames are played back later on a movie projector. In the advertising industry, photo shoots are very common. The products to be advertised have to be shot and sometimes models are also part of the shoots. Good photographers are much in demand and charge hefty fees for their services. A talented photographer can also make a model’s career by helping them to put together a good portfolio. Professional courses are available for those who aspire to become photographers.Good jobs in the media also await them in prestigious magazines like the ‘National Geographic’. Newspapers also have staff photographers who accompany reporters to cover events. Photographers are also hired to cover weddings, birthdays and other important personal occasions. Some of the world famous photographers include Henri Cartier-Bresson who is considered as the greatest photographer of the last century and Alfred Eisenstaedt of ‘Life’ magazine. Photography is a lifelong hobby for many people.


In this document you can find about different parts of a DSLR camera and it's correct usage.


Photography is the art, application and practice of creating durable images by recording light or other electromagnetic radiation, either electronically by means of an image sensor, or chemically by means of a light-sensitive material such as photographic film. It is employed in many fields of science, manufacturing (e.g., photolithography), and business, as well as its more direct uses for art, film and video production, recreational purposes, hobby, and mass communication

Photographic Film

Photographic film is a strip or sheet of transparent plastic film base coated on one side with a gelatin emulsion containing microscopically small light-sensitive silver halide crystals. ... The emulsion will gradually darken if left exposed to light, but the process is too slow and incomplete to be of any practical use

SLR camera

Single-Lens Reflex Camera Light is bounced from a mirror through a pentaprism to the viewer's eye while choosing the object for photography. The shutter button lifts the viewing mirror while opening the shutter to allow the light to fall on the detector to record the image

Advantages and Disadvantages of Gravity Dams

Advantages and Disadvantages of Gravity Dams

aircraft classifications

aircraft classifications

Colors in photography

In photography, the dominant colors are the warm colors, e.g. red, yellow, and orange. These colors are considered dominant because they reach our eyes before the cooler colors. The cooler colors are the receding colors, e.g. blue, green and purple.


In photography, a tripod is used to stabilize and elevate a camera, a flash unit, or other photographic equipment. All photographic tripods have three legs and a mounting head to couple with a camera. The mounting head usually includes a thumbscrew that mates to a female threaded receptacle on the camera, as well as a mechanism to be able to rotate and tilt the camera when it is mounted on the tripod.

Lighting directions

Light not only has the characteristics of being harder or softer, diffuse or sharp, but it also has a directional quality that you can use to enhance or your subject and, therefore, your images. There are typically three directions that we look at when discussing the direction of light.(front,side and back)


A flash is a device used in photography producing a flash of artificial light (typically 1/1000 to 1/200 of a second) at a color temperature of about 5500 K to help illuminate a scene. A major purpose of a flash is to illuminate a dark scene.‎Camera Flash TypesTypes of DSLR Photography Flashes ExplainedAttila Kun Understanding lighting is perhaps the most important part of photography. Today nearly every DSLR (and Point and Shoot) comes with a built-in flash. Unfortunately, these built-in flash devices can produce surprisingly garish photos... considering that they are supposed to be there to help you. There are several types of flash units that you can (and should) master to get the best pictures possible in practically any lighting situation. Let's take a look, shall we?1Built-in & Pop-up Camera FlashBuilt-In & Pop-Up Flashes are flash units constructed within the main camera body. They are on-axis with the lens, so when you fire these flash units, the light fires in one direction only — directly at your subject. This is usually problematic, because the on-axis light causes harsh contrast and hard shadows; not to mention causing the background to be unreasonably dark. We’ve all seen this problem in photos, usually ones that our friends take at night or inside at clubs and parties. You can avoid this unsightly effect by balancing the flash with the ambient light in the scene. You do this by metering the scene – without the flash – and then turning the flash on and taking your photo.2Dedicated Camera FlashThe dedicated flash is a flash unit that fits into your camera’s hot shoe (that slot on the top of the camera body). The dedicated flash is a great piece of gear that communicates with the camera. In combination, the camera and flash use information about lens length, ISO sensitivity, f-stop and shutter speed to determine optimal flash-strength output. The dedicated flash is preferred over the Built-in/Pop-up flash for many reasons, but one of the best is that you can avoid red-eye by angling the flash and bouncing the light onto your subject. In addition, many dedicated flashes pre-flash to get your subject’s pupils to constrict and avoid red-eye. A dedicated flash is a far better tool than the built-in flash because of the versatility it gives you. Even more versatile is if it comes with a cable, allowing you to detach the flash unit and position it at any angle for the best possible photo… and believe us you’ll be impressed by the freedom.3Macro Ringlight Camera FlashA ringlight flash fits on the barrel of the lens by screwing onto the attachment threads. It provides a soft, diffused light source that is ideal for Macro Photography. The fragile parameters of Macro photography preclude using a built-in flash, and a dedicated flash unit doesn’t have the exacting direction capabilities to properly illuminate a Macro subject. The Ringlight Flash enables you to get as close as possible to your close-focus subject and flash it with a light source that will not give you hard contrast or shadows. Instead you’ll get soft, even illumination that will bring out the details.4Hammerhead Camera FlashA hammerhead flash is a flash unit that is separate from the camera and is not attached to the hot shoe; it screws into your camera’s tripod bushing. The flash unit sits to the side of the camera and it off-axis just enough to limit red-eye in your subjects. It’s a favorite among press and wedding photographers because the hammerhead has a high light output and it provides a better angle and grip than other types of flashes.AFill-in FlashThe fill-in flash isn’t a separate flash unit, but rather a technique used when the background is much brighter than your subject, or the lighting is such that you have a high levels of contrast on your subject. As the name suggests, you use the fill-in flash to add fill light to the subject so it registers a more pleasing exposure. This is useful when the ambient light is overwhelming and would typically result in some level of silhouette. You’ll want to turn on your flash when you’re outside and meter the key part of your subject (i.e. a person’s face) that appears to be in “shadow” compared to the rest of the scene. Your image will be more balanced, and more pleasing.BBounce FlashBounce flash is also a technique, not a flash unit. You will get more aesthetically pleasing images when you bounce the flash off of a surface to illuminate your subject instead of the direct, on-axis illumination that you get from most flashes. You need a dedicated flash unit to bounce the flash off the ceiling or a nearby wall. This technique opens up a whole new world of great photography, particularly if the dedicated flash is tethered to your camera with a cable.CConclusionThere are many different ways to get additional illumination with the various described flash units. The real trick to using them effectively, and not like an amateur, is to understand the parameters of what the flash can do, understand the lighting dynamics of the situation you are in — and then get creative! Each of the specialty flash units work well with what they’re designed for and will improve your photographs immeasurably – with practice! In untrained hands, the flash causes more problems than it solves (so it’s recommended that you avoid the use of flash when you can). You can often get an effective shot without using a flash, and it’s best to choose a flash unit and accessory that will help you get the image you want. It is important to know how to use the flash wisely.lA Guide to On-Camera FlashBy Bjorn Petersen | Updated 8 months agoSave1An on-camera flash is an indispensible accessory for many photographers; it provides additional light when conditions become too dark to handhold your camera comfortably, allows you to achieve more balanced exposures in daylight conditions, permits freezing of fast-moving subjects and can also be used to control or trigger other flash light sources. Additionally, a flash can be used as a highly effective creative tool to establish an aesthetic that elevates your imagery when lighting conditions are considered less than stellar. The benefits of an external on-camera flash far outweigh those provided by a built-in camera flash, while the only drawback is keeping an additional piece of equipment.On-Camera Flash versus Off-Camera Flash versus In-Camera FlashThe term on-camera flash simply refers to a type of strobe light (flash) that can connect directly with your camera. While it is referred to as “on-camera” this does not require the flash to be physically mounted on your camera. On-camera flashes can, and often are, used off-camera. This differs from other strobe-light sources, such as studio pack strobes and monolights in that these types of strobes are not meant to be physically connected to your camera (except under rare and unusual circumstances involving convoluted methods of adaptation). Additionally, on-camera flashes usually have a self-contained power supply, although external power sources can sometimes be used to improve performance or battery life.On-camera external flash also refers to the type of external flash that can be used on your camera, compared to a built-in flash that is integrated into many cameras. An on-camera external flash performs better than a built-in flash in almost every regard with the one exception that it is not built into your camera. The ability to take the flash off your camera results in a significantly greater number of lighting options; far more than simply providing a blast of flat light to the scene to facilitate an adequate exposure. It is often not desirable to have your flash pointed squarely at the scene at hand; more often than not you will want to bounce the flash light off other surfaces and point in other directions to control the look of your flash. When using an in-camera flash, you are forced to use the flash at the given angle from which it extends.Most built-in flashes are also located near the camera lens, which can often result in the red-eye effect when photographing subjects in dimly lit conditions. Red-eye occurs because pupils dilate in dim light, the built-in flash is aligned with the lens's optical axis, its beam enters the eye and reflects back at the camera from the retina at the rear of the eye, which is quite red. Being able to use an on-camera flash source off-camera, from a different angle, will help to eliminate the red-eye effect in your photographs of people.Guide Numbers, Manual Usage, Controlling Flash Power and Sync SpeedsBefore delving into the automatic technology that is contained within most contemporary flashes, it is best to understand how to manually control and grasp a flash’s power. This is directly related to having an understanding of exposure ratios—how shutter speeds and apertures affect and balance each other—even though auto-exposure metering is available and often utilized for determining the best exposure settings."Guide numbers are the standardized, numerical way of determining the power of a flash, with a higher guide number representing a more powerful flash..."Guide numbers are the standardized, numerical way of determining the power of a flash, with a higher guide number representing a more powerful flash. A guide number is the product of multiplying the f/stop of an exposure with a given distance, at ISO 100; or GN = f/number x distance. This calculation directly refers to the Inverse Square Law, which states that a specified physical intensity of light is inversely proportional to the square of the distance from the source of the physical intensity. For example, a given intensity of light will be 1/4th the intensity at twice the distance from the source, 1/9th the intensity at three times the distance, 1/16th the intensity at four times the distance, and so on. Since f/numbers fractionally relate to the intensity of an exposure, they perfectly fit into the guide number equation as a variable for determining flash exposure.Simplifying this a bit, a realistic example would be if you have a flash with a guide number of 100, photographing a subject 25’ away will require the use of f/4 for proper exposure. Likewise, a subject 50’ away requires f/2 or a subject 5’ away requires approximately f/22. Since guide numbers are typically expressed at ISO 100, you can further determine your exposure if using a higher sensitivity, such as ISO 800, as a subject 50’ away would require an aperture of about f/5.6. Another variable to consider is that all of these values assume you are using your flash at full power; often, you can control the flash output of your strobe in increments to either save on battery life, provide faster recycle times, or to control your exposure more when working in closer situations. This flash power variable can easily be compensated for in the guide number equation by reducing one of the other variables. For instance, if using a flash with a guide number of 100 (at ISO 100) at 1/4 power and photographing a subject at 25’ away, you will now require an aperture of f/2 (which is 1/4 the original example’s given aperture).ISO 100It should also be noted that in most instances, controlling your exposure in-camera when working with flash should only be done by modifying your aperture. This is because the precise duration of a flash is substantially less than most shutter speeds; if you compensate for your exposure by using a faster shutter speed you will not see any change in exposure because the flash is essentially performing the role of the shutter. Additionally, unless using a leaf shutter (a shutter contained within the lens, featured on many medium and large format lenses), it is likely your camera’s focal plane shutter will not be capable of producing a fully-exposed image at shutter speeds shorter than about 1/250th of a second (depending on your camera).The fastest recommended speed at which your camera can record an image when using flash is called the "sync speed." If you make an exposure faster than the sync speed while using flash, the shutter will likely not have enough time to clear the image path of the sensor or film while the scene is fully illuminated by the flash. This will result in blocked or blacked-out areas of the image (the part of the shutter that couldn't clear the path in time). Conversely, you can make exposures longer than the maximum sync speed and still produce a fully-exposed image; however, depending on this length, other consequences or benefits may occur.Fill-Flash and “Dragging the Shutter”While flash is often used to illuminate a scene entirely, either because of low-light conditions or because you are using a small aperture to gain additional depth of field, flash can also be used in combination with ambient exposure to provide additional creative benefits. Relating back to sync speed, if you're using a shutter speed that is similar to what would be required of an ambient, regular exposure, in conjunction with flash, you will be mixing both ambient and flash light. This technique is called dragging the shutter and can be utilized to highlight specific objects or subjects within a scene. An example would be photographing a field or bush at dusk; while the foreground and surrounding areas are very dark, there is more light available in the sky regions of the scene. A way of rendering this type of scene would be to use your flash to illuminate the nearer regions, and then letting your shutter stay open longer to capture the ambient light of the sky. This will provide exposure to adequately render both the darker and brighter portions of the image within a single frame. Additionally, this technique works well for freezing movement in darker light; by using the flash to freeze and illuminate the moving subject, and then keeping your shutter open to properly expose the background.Similar in concept, but using the opposite protocol, is fill flash. Fill flash is a technique in which you use your strobe to essentially fill in areas of the scene, either because they are darker than surrounding areas or to intentionally darken the background to better illuminate a nearer subject. This technique can be used during daylight or in well-lit situations, even if the ambient exposure is appropriate for handheld use, where there is a discrepancy between the exposure values of the foreground and background (i.e. backlit or silhouetted subjects).To properly use fill flash, first meter your subject and then meter the background. This difference in exposure values is what is to be made up by use of flash exposure. Once you have determined the difference, you set your camera to properly expose the background values (knowingly you will be underexposing your subject) then you set your flash to account for the difference in stops between the two regions. This will render both areas of the image properly, giving you a more balanced, evenly lit exposure. This tool can be further manipulated to intentionally render your nearer subject brighter than the background, to give it more prominence. In order to accomplish this, you follow the same steps as outlined before but simply set your camera’s exposure settings to purposefully underexpose the ambient regions and have the flash properly illuminate your main subject; thus producing an image with a well-lit subject and darkened background.TTL Flash MeteringAll of the previous tools and systems can effectively be utilized with your flash when set to manual operation. By using a flash in manual mode, or a flash that does not possess automatic exposure capabilities, you are in full control of determining both your flash’s power and your camera’s exposure settings. This is ideal for creative use, and becomes easier the more familiar you are with certain working situations; however, it sometimes cannot be the most practical or fastest method, considering the availability of automatic flash metering. Automatic in-camera calculation of flash metering is usually done using a TTL, or through-the-lens method. This method of determining proper flash exposure is very similar to how a camera’s exposure meter works; however, it takes into account more variables, such as flash power and even subject distance if used in conjunction with a compatible lens.TTL flash metering initiates when the camera’s shutter button is pressed, which then instantly triggers the connected flash. This flash then sends out a burst of light, a pre-flash, which will strike the subject and reflect back through the lens. This returning light is directed to an exposure meter, which will determine how long the true exposure should be to properly expose the subject. Modern TTL systems are able to control both a camera’s and a flash’s exposure settings to provide well-exposed results, taking much of the guesswork and experimentation out of flash photography.This method of determining proper exposure when using flash is also codependent on the type of flash and camera you are using, with both variables needing to “speak the same TTL language.” Different camera types all have proprietary TTL systems, such as Canon’s E-TTL II or Nikon’s i-TTL, and then TTL-enabled flashes will specify which TTL system they support. Additionally modern TTL systems will also work in conjunction with certain lenses, which further benefit TTL accuracy by being able to factor in your camera-to-subject distance. Depending on where your focus point is set, the flash will deliver enough power to properly expose a subject at that distance. For intentional over- or under-exposure when working with TTL flash metering, most flashes incorporate an exposure compensation system similar to that of a camera, allowing you to vary the “correct” amount of light output by a certain number of stops. Exposure compensation, as well as dedicated settings, also allows you to control fill-flash amounts when working with TTL, further enabling more controlled and consistent flash shooting.Bouncing Your Flash and Using it Off-CameraOn-camera flashes can roughly be divided into two classes: those that feature moving (rotating or tilting) flash heads and those that do not. The strobes that do not have a moving flash head have the benefit of being more compact, but outside of that their usability is significantly less than that of a strobe featuring a flash head that can tilt, and even better, one that can rotate. A flash with no movements is similar to an in-camera flash you might already have, and when mounted on your camera, it will always output light in the same square, front-facing direction. These flashes do often have more power and manual controls than your in-camera flash, though.However, once you add the ability to move your flash head, you can suddenly gain much greater control and a variety of options regarding how to direct the light falling on the subject. Light that is pointed directly at your subject is typically very harsh light, producing deep shadows and having a quick light fall-off from your subject to the background (Inverse Square Law). To render a similar scene with softer light, you can tilt your flash head to bounce your light off a nearby wall or the ceiling in order to broaden its directional quality. Once the flash light strikes a wall or a ceiling, that surface is being converted into a much larger light source than your flash itself. This omnidirectionality helps to lessen the effects of the Inverse Square Law, since the light source is larger, and will produce less harsh shadows with more even lighting.Even better than the ability to point your camera-mounted flash away from your subject is the ability to remove your flash from the camera entirely and point it in any direction and at any angle you wish. This can be accomplished in a number of ways; either by way of a wired connection or a wireless connection. A wired connection simply requires running a sync cord between your flash and your camera. Make sure to have a cable with compatible connections to both your camera and your flash. Flashes often have a kind of proprietary connection, or sometimes also support more standardized connections such as a household plug or a miniphone, photo, or sub-mini jack. These cables usually feature a PC connection at the other end to provide a connection to your camera. If your camera does not have a PC sync socket, there are also adapters available that slip into your hot shoe and provide a PC connection from there. Cables that connect your flash to your camera are available in lengths from 6” up to 33’ in either coiled or straight designs. It is best to assess how you plan to use your flash off-camera before deciding upon length; if it is too short you won’t be able to get far away from the camera, if too long the cable will become cumbersome to handle. If you're not handholding the flash, you can easily remove the flash from your camera and mount it to either a stand or a flash bracket. A flash bracket enables you to place your flash off to the side or above the camera, and usually gives you a bit more freedom as to the orientation in which you can place your flash and the direction you point it. Brackets typically attach to your camera from the tripod socket and provide you with an additional method to hold your camera/flash system. The other method of tethering a flash to your camera is to use a wireless receiver/transmitter system or a slave, which employs radio, infrared or optical triggering methods to communicate between your camera and your flash. A wireless system affords you the most creative control, as the boundaries of how far away your flash and camera can be are practically limitless, and you can also work with multiple flashes for more creative lighting setups.Wireless Flash ControlWireless flash is a complete entity unto itself, but as a briefing, there are essentially three types of wireless triggers: infrared, radio and optical. Beginning with the most basic, optical triggers (commonly referred to as slaves or optical slaves) are a small addition to your flash that enables wireless triggering once the slave detects a flash of light. These slaves come in an assortment of connections, typically household plug, 3.5mm or 1/4” jack, PC connection or via a hot shoe. Determine which connection type is compatible with your specific flash before considering anything else when using an optical slave."Radio remotes have the advantage of being completely non-reliant on optics and do not require a line of sight or certain lighting conditions to function properly..."Once properly paired, you simply connect the slave to your flash and utilize another flash in order to trigger it. These are ideally used in a situation with multiple light sources, since optical slaves require one burst of light to trigger them; however, you can effectively use them in single-light situations by programming your in-camera flash to fire at a very low power (1/64th or less if possible) and assume that the flash with the optical slave will completely overpower this small amount of light. It should also be noted that many modern flashes contain a built-in optical slave, which eliminates the need to add an optical slave; they are mostly for use with older flashes or in circumstances where you might need an especially highly sensitized slave. One other note regarding optical slaves is to account for the pre-flash that will occur when using TTL flash metering. Often, the slave will react to this pre-flash, as opposed to the intended “main flash,” and your lighting sync will be off. Some optical slaves have a function to automatically ignore this pre-flash, while on others, you must manually disable the pre-flash either through your camera or the master flash you are using to trigger the optical slaves.The other method of wireless triggering is through the use of an infrared or radio system. One of the main advantages of these is that you do not require a hard-wired flash in order to wirelessly trigger a group of flashes or even a single flash; your entire lighting setup can be controlled from a transmitter connected to your camera. When working with a wireless transmitter and receiver system, you will connect one unit to each flash needed and one to your camera; this provides a remote method of communication between your camera and flashes to trigger flashes, and sometimes a means to even control the power output of individual flashes. This method can also function well if using a single unit on your camera and main flash, then utilizing optical triggering to set off subsequent flashes. Another benefit to these triggering systems is that some flashes contain a built-in infrared receiver, saving you the need to attach an auxiliary one. When working with radio transmitters, it is less common for flashes to have built-in receivers, unless working with proprietary transmitters and higher-end flashes.An infrared triggering system is similar to an optical method, but as the name implies, it utilizes infrared wavelengths to transmit the flash signal. This has a benefit over an optical trigger, as you do not need an on-camera or directly tethered flash to trigger your exposure, which can affect your exposure and limit the means of how you light your image. An infrared transmitter is essentially a low-powered flash with an IR filter over the front of it; when it emits a burst of light, the IR filter attenuates most of this light and converts it to an infrared signal. Infrared remotes work best in indoor situations when there isn’t an abundance of ambient light to disrupt the infrared transmission, and they also usually require your infrared receiver to be in direct line of sight of the infrared transmitter. With these drawbacks in mind, IR systems do have the advantage of being able to handle extremely fast sync speeds, due to the lack of time needed to compensate for a radio transmission.The last, and most sophisticated method of wirelessly triggering flashes, is through the use of a radio transmitter and receiver system. Radio remotes have the advantage of being completely non-reliant on optics and do not require a line of sight or certain lighting conditions to function properly. They can operate across numerous channels, which greatly enhances photographing with wireless flash in situations where multiple photographers are working. Their other main benefit is that some radio systems integrate full TTL compatibility, which gives direct connection between the flash and your camera for controlling flash exposure. Many radio slaves also have dual functionality, deeming them transceivers, which allows the same units to be placed on either cameras or flashes. Transceivers can usually be set to transmit or receive, which helps to further dial in the specific purpose of them under certain circumstances.Additional Battery PowerAs previously mentioned, one of the defining characteristics of an on-camera flash is a self-contained power source. This power source, often AA batteries, is stored inside the flash and can be replaced easily during the course of a photo session. This convenience is certainly appealing when compared to portable strobe packs featuring batteries that alone can weigh more than 20 lb; however, AA batteries are also not that powerful. Flash is a power-craving tool that requires battery power and quantity in excess of typical camera batteries. Rather than favoring a dependency on numerous AA batteries, it is beneficial to use an external battery pack if you use flash on a regular basis. Auxiliary battery packs are often compact in size, for carrying in a pocket or attaching to a belt, and connect to your flash via a dedicated cable. Packs contain an internal, rechargeable battery; a removable, rechargeable battery; or in some instances, are simply a means to bundle several AA or other common battery type together to more efficiently provide longer battery life versus changing out batteries from the flash itself. In addition to longer battery life, battery packs also often allow for faster recycle times—meaning you can fire your flash more rapidly with less time in between bursts. Often only higher-end flashes will support the use of an external battery pack, since they are more typically put through longer shooting times and more strenuous conditions.Other Features to Look for When Purchasing a FlashAs it would when looking for any other camera equipment, purchasing a flash should be heavily dependent on your needs to ensure it has the features you will use and will best suit the applications for which you intend to use it. Additionally, it is usually preferable to work with a flash best suited to the specific camera type you use, either by way of using the same brand or a third-party manufacturer with camera-compatible accessories and connections. This is especially prevalent in regard to TTL systems, with not all TTL-compatible devices being TTL-compatible with your specific camera or flash. Like cameras, too, flash choice should also take into account the build quality and how it will withstand the conditions in which you typically work. Certain flashes feature full weather-sealing, which could be necessary for working in adverse conditions.Flash Accessories and Light ModifiersAs mentioned previously, when talking about bouncing flash and getting the flash off your camera, is that a flash’s artificial light and straightforward angle are often not the most flattering or aesthetic sources. In addition to directing your light source at something other than your subject, you can also use numerous other tools to affect the way the light strikes your subject. These on-camera light modifiers come in a wide array of shapes and sizes, all serving to alter your light in various ways.DiffusersThe most common type of add-on light modifier for your flash is a diffuser, in either bounce, flat, dome, or wide-angle styles. These diffusers work by placing a translucent box or substrate in front of your flash, helping to soften and spread the light a bit more evenly than an undiffused flash head. You will likely lose at least one stop of power from your flash, but your light will have less directionality and more of a softer, less high-key appearance.Mini SoftboxesA mini softbox, as the name suggests, is a smaller version of a softbox that is designed especially for use with an on-camera flash. A softbox converts your flash into a larger, softer light source to help lessen the intensity of shadows and produce a more wrapped-light quality. The differently shaped softboxes will produce differently shaped catch lights in subjects’ eyes; otherwise the different shapes will function similarly based on corresponding dimensions or surface area of the softbox.Bounce CardsMany flashes feature a built-in bounce card that slides out over the flash head, but if not or for more control and adaptability, auxiliary bounce cards are available. In terms of light quality, a bounce card is something between a diffuser and a soft box. It produces light akin to bouncing your flash off the ceiling or a wall. These reflector cards extend from the top of your flash head and block light from spilling in all directions, and subsequently create a larger, softer light source.Grids and HoneycombsGrids afford more control and a tighter light output from your flash. The honeycomb pattern helps to limit the overall spread of light and concentrate it into a more organized beam. Grids are often available in an assortment of sizes or degrees, with the smaller measurements referring to a tighter, more refined light spread.SnootsFor an even narrower beam of light than a grid, a snoot can be used to create a small circle of light. The longer the snoot, the smaller the circle of light will be. Additionally, snoots often feature an attached grid spot at the end for an even narrower beam angle. Both grids and snoots, and a combination of the two, will produce a harder light quality, greater contrast, and more dramatic shadows due to their limiting of the light spread.ExtendersA flash extender is essentially a Fresnel lens that concentrates the flash light into a tighter beam to be thrown at greater distances. It is similar to the idea of a telephoto lens for your flash, and some flashes even have telephoto/Fresnel lenses built into them to serve this purpose. An extender is different than a snoot in that it does not merely restrict the light from spilling; instead it focuses the light into a tighter area to simulate the angle of view of longer lenses.Color Filters and GelsColor filters and gels are used over your flash head to alter the color of light being produced. Most flashes emit light that is daylight-balanced (between 5000 and 6000K), which is fine for general purposes. When working under mixed-lighting conditions, however, such as fluorescent or tungsten-lit rooms, the difference in the color of light between your flash and the ambient lighting will be much more apparent. By covering your flash with a colored gel, you can more closely approximate the surrounding color temperature for more balanced lighting. These filters, often sold in kits or packs, can contain a range of colors that typically include CTB (color temperature blue) and CTO (color temperature orange) filters.These specific filters, and more often the CTO, are frequently used to balance your strobe’s light accordingly; a full CTO will convert your flash light to approximately 3200K for tungsten lighting, and a full CTB will convert it to approximately 5600K for daylight use (if using a flash that is not already balanced for daylight). For more information on balancing mixed lighting conditions, refer to this B&H In Depth article. Additionally, many of these kits include many other colors to choose from for more creative applications where you want to use a colored light source as opposed to one appearing “white.” These filters and gels can be affixed to your flash in a large variety of ways, ranging from dedicated filter holders for your specific flash to simply taping the gel over the flash head.Ringlights and Macro LightingOne other specialized type of lighting is an on-camera ringlight, and other types of on-camera lighting well-suited to macro applications. While all ringlights are technically “on-camera,” these refer to those that feature self-contained power and other features as noted earlier. A ringlight is a unique lighting tool that is donut-shaped and goes directly around your lens. This circular light is perfectly aligned with the axis of your lens and helps to provide nearly shadowless lighting, since the light is coming from all angles directly surrounding the lens. When used with more powerful studio strobe battery packs, a ringlight is a popular tool for fashion and portraiture work, but when confined to an on-camera source the light output is typically fairly limited and best suited to macro and close-up applications. The other, and even more important, reason that ringlights are best suited to macro work is that they constitute an effective solution that provides even lighting to subjects where your own or your camera’s shadow would be in the way if you were using off-camera lighting. Since the light is positioned on the same plane as your lens, you are able to light anything that your lens can focus on. In addition to ringlights, there are also twin-light setups that position two separate light heads off to either side of your lens, but still on a similar plane as your lens. These dual heads can be positioned to induce a more physical, 3D quality than a ring flash since they can be tilted or moved slightly to create more dimensionality with objects. Finally, there are also twin-light setups that are attached to a ringlight to provide the benefits of both systems, including the flat, even lighting of a ringlight but with the available dimensionality of a twin-light configuration.Flash is an entire co-existent realm to available-light photography, and can be utilized to better highlight or give a more interesting visual appearance to subjects. Flash can provide additional dimensionality and texture to subjects in a way that cannot be achieved with natural light. An on-camera flash is a practical and lightweight option for using additional light when making photographs, and serves to be much more expansive than a flash that is simply confined to be atop your camera. When used in conjunction with controlling the power output, light direction, placement, shape and color of the light output, an on-camera flash is undeniably an important tool to have for many, if not all, photographers.If you have any questions or concerns about flash photography and what equipment is right for you, please contact a B&H Sales Professional via live chat, over the phone or in our SuperStore.