As it turns out, all color has a temperature - measured in degrees kelvin, whatever that is!
The kelvin system of temperature measurement is very much like the celcius system, but it starts with zero at absolute zero instead of -273.15°C.
Right about now you're probably wondering what this has to with photography, aren't you? The short answer is...nothing at the low end of the scale. However, color temperature is a characteristic of visible light and is measured in degrees kelvin, which makes it important to know a little about it. Both the amount of light and the color temperature affect how the image appears in the finished product.
I know it's counter intuitive, but the hotter the temperature of a color, the cooler it is considered to be.
Color Temperature image taken from Wikipedia |
The table below gives a pretty good idea of the color temperature for a variety of different light sources:
Temperature | Source |
---|---|
1700 °K | Match flame |
1850 °K | Candle flame |
2800–3300 °K | Incandescent light bulb |
3350 °K | Studio "CP" light |
3400 °K | Studio lamps, photofloods, etc. |
4100 °K | Moonlight, xenon arc lamp |
5000 K | Horizon daylight |
5500–6000 °K | Typical daylight, electronic flash |
6500 °K | Daylight, overcast |
9300 K | CRT screen |
Note: These temperatures are merely approximations; considerable variation may be present. |
As you can see from the table, all of the sources are actually hot: flame, incandescents, the sun, etc. However, there is a conversion system that give you some idea of the color temperature of fluorescent bulbs called the correlated color temperature (CCT), which has to do with the perceived color of the blah, blah, blah. Here is more than you ever wanted to know about color temperature.
Now for a bit of setup information. I went to Home Depot an bought some metal reflectors and fluorescent bulbs. The bulbs are not very expensive, even though it says $77 dollars in the pictures (that's actually the savings over using an incandescent bulb). The prices were about $4 for two of the bulbs and $6 for the third one. However, if you want, you can go to B&H's web site and pay a couple hundred buck if you want...
I used a peninsula cabinet for the setup. First, I draped a roll of kraft paper over a box to create a cove. (A cove is just a way to get a nice smooth corner as a backdrop for your subject. The principle is the same if you are shooting people or things.) Next, I clamped the reflector to one of my old tripods and mounted the camera on the good tripod. I placed an 18% gray card on the cove (as a reference) and placed the subject on the card. That pretty much tells the whole setup story, so check out the picture below to see what I'm talking about.
Then I took a series of pictures - two with each bulb. The first image is always with the light source to the left. The second image always uses a reflector to fill in the light on the right (move the reflector around until you can see the subject being filled with a reflection of the light source in the left).
This first set of picture uses the Daylight bulb. I estimate the color temperature to be around 6000K, or the daylight range. Notice how realistic the images look - almost as though they were taken outside. Also notice the second image with the light filled in on the right as the light source is reflected back on to the subject.
f/4.0, 1/40, iso400, AE, 18.0mm Focal length | f/4.5, 1/50, iso400, AE, 18.0mm focal length |
This next set of images uses the Bright White bulb. Here, I estimate a color temperature of about 4500K, or the moonlight/Horizon daylight range - early sunset type of lighting. Now you see the image start to approach the yellow end of the spectrum.
f/4.5, 1/20, iso400, AE, 18.0mm Focal length | f/4.5, 1/25, iso400, AE, 18.0mm focal length |
Lastly, the Soft White bulb supplies the light. I'm guessing somewhere around 3300K, which is something like using available light in your living room. Notice how warm the images have become as the light source approaches the yellow end of the visible light spectrum even more. Also, the farther you are from your light source the warmer the picture will be. The reason is simple physics - a little principle they all the inverse-square law. All you really need to know about this inverse-square law is an object twice as far away from the source, receives only ¼ the light energy. And here is more than you ever wanted to know about the inverse-square law.
f/4.5, 1/25, iso400, AE, 18.0mm Focal length | f/4.5, 1/30, iso400, AE, 18.0mm focal length |
The three lighting situations simulated here are bright sunlight where the sun is primarily over head, early evening and available light inside the house. I tried to keep the camera pretty much at the same settings, even though the shutter speed did vary a bit.
That's pretty much it. Now that you got a basic understanding (and I do mean basic), give it a try. Select your lighting condition and start shooting. I'm looking forward to seeing what you come up with.
2 comments:
that really helps give me an idea of what to be looking for. Love seeing the different bulbs and what look they each produce. I look forward to giving this a try. Great tutorial
Hmmmm, I would like to see the variation of color if you used the same bulbs and same subject and changed the location of the light source. Interesting that just the bulbs would do that much work for your photos. You are right though, that alone could do a lot for your photos.
Lineman
Post a Comment