Thursday, September 12, 2013


Recently I have found myself carrying, when I travel with my wife and am focused on more then just photography, smaller cameras.  I leave the big DSLRs at home or in the trunk of the care, if brought, and only bring it out occasionally when I go off by myself to capture light before others awake.

Perhaps, I am becoming a minimalist for some occasions after spending so much money on big full frame DSLRs and expensive lenses.  If you know how to capture images and know your camera, you can do wonders with the little cameras.  I have a Fuji X10 and X100 as well as my older P7000.  They are marvelous to light and so much less bother when with others...just pull it out, point and shoot, but always with a sense of capturing a wonderful image to remember an experience with.  

I see that Nikon is coming out with the latest P7000 series sometime in September. It is called the P7800. I remember a little over two years ago, I bought the P7000 before my trip to Utah on ANPAT 11 (annual nikonians photography adventure trip) to carry with me on my belt to supplement my two DSLRS. I soon discovered it could capture some stunning images. Subsequently, the P7000 morphed into the P7100, then the P7700 and now P7800 is coming. That is a lot of $500 camera upgrades in a short space of time for a high end small sensor point and shoot class of camera. It has manual, aperture and shutter modes in addition to program and automatic. It shoots RAW, too. I still love my P7000 and seriously doubt I will upgrade anytime soon. Yes, it focuses a little slow and has a few quirks that were improved upon in the subsequent upgrades, but with patience and practice, it captures some very nice images and is really light to travel with when I don't want to carry my D90, D600, D7000, D700 or D800.

I took many photo's at my mother-in-laws house in Richmond, Virginia of Zinnias and Butterflies a week ago. Here is one that I think shows the power of the P7000 and what that little camera can captures handheld. It shows some decent shallow depth of field, and nice control using aperture priority to manage that DOF. By the way, the P7000 and P7100 had optical view finders which helped a lot in both of these images. The later versions (P7700 and now the P7800) do not have optical view finders (sigh...not a fan of that route by Nikon). 

The Butterfly Image below was taken with Nikon P7000 Coolpix using ISO 100, f/5.6, 1/270s, AP at 200mm (equiv. for 35mm). 

The Bryce Canon image was taken handheld with the P7000 at ISO 100, f3.5, 1/850s, Program mode, while I waited to set up my tripod with my DSLR. While some of my images have been exhibited and received a few accolades that were made with my DSLR from that trip, this is the only one that has consistently got praise for the way the camera captured the light (isn't that what it is all about) of that glorious morning in Utah.

So remember even the older sometimes maligned cameras can give you great pleasure, it is just about how you use them.  To see more of my images as I Bum around the World, visit my website at

Copyright © 2013, John D. Roach

Tuesday, August 20, 2013

Blog Post for August 20, 2013 by John D. Roach

Recently I gave a presentation to my local camera club on some of the basic principals of Photography White Balance.  The following represents the outline slide presentation:

Photographic White Balance
An Introduction
What, How and Why?

What is Color?

Color is caused by differing qualities of light striking an object being reflected or emitted off the object.
To see color, you have to have light. When light shines on an object some colors bounce off the object and others are absorbed by it. Our eyes only see the colors that are bounced off or reflected.
The sun’s rays contain all the colors of the rainbow mixed together. This mixture is known as white light. When white light strikes a white marker, it appears white to us because it absorbs no color and reflects all color equally.
A black marker absorbs all colors equally and reflects none, so it looks black to us. While artists consider black a color, scientists do not because black is the absence of all color.
In Photography we evaluate “Color” in terms of “Temperature.”  

Planckian Scale


Color Spectrum of Light Waves


Different types of light shine with different color qualities.  Direct sunlight is very blue, while tungsten light is very orange.  One of the amazing characteristics of our eyes is that as we move among all different types of light whether in sunlight or artificial light we still perceive color in the same way.
To understand color we must think of it in terms of color temperature using the Kelvin Scale.
If you heat a black object, it will begin to change color.  As it gets hotter, it will progress through the spectrum of colors from red through orange, then yellow, white, and blue white.  The color corresponds to the temperature to which the object has been heated.
NOTE:  Color temperature directly relates to the “how white  balance must be adjusted in a digital camera” so that the correct colors are revealed in the captured light so that it reflects the appropriate colors.
Consider a Bunsen burner, or log fire.  When the fire/flame is at a low temperature, the color of the flame is red.  At higher temperature, the flame changes to bluish tones.  Hot Kelvin temperatures have a bluish tint to the light.
Landscape photographers often recommend shooting during the “magic hours” that surround sunrise or sunset.  During these periods, the light is incredibly “warm” and flattering to the subject. 
The color temperature at sunrise 2000 K and will change rapidly as time elapses.  Only an hour later, the color temperature may rise to 3500 K.  By mid-morning, the color temperature is can be 4300 K.  The “warmer” light of sunrise rapidly yields to the “cooler” light of mid-morning.

RGB Continuum

List of White Balance Settings

Auto:  this where the camera makes its best guess as to quality and type of light.
Tungsten:  Used when incandescent are used indoors in order to cool down colors.
Fluorescent:  Compensates for ‘cool’ light and warms an image.
Daylight: Best for natural light quality during day, sunrise and sunset.
Cloudy:  Warms up a cool effect of a grey day.
Flash: Cool light set to warm up an image.
Shade: Warms up cooling light of being in the shade.

Color Spectrum and Temperature Scale

Now what is White Balance?

White light is composed of every color in the color spectrum.
White Balance is the process of determining what is white in a scene.
Unlike our eyes, a camera’s digital sensor can not easily determine the type of light, since all it does is receive the light and pass it on to the camera’s computer.  It is then up to the camera to interpret the color correctly.
For that to happen the camera must be told either by an on board “auto” control sequence or “manual” (preset) input what the type of light is that is striking a subject being photographed.
The light source information allows the camera to figure out what the quality and type of light is and then establish a correct white
Once a camera knows what is white, it can determine the type of light in a scene and then accurately reproduce all other colors within the scene.

How Does White Balance Occur?
Red is around 1000K while Indigo is 10000K.
As White Balance is achieved depending on the light source, more red or green or blue and colors in between are added to achieve correct white.
Cooler colors have shorter (more energy) wavelengths while warmer colors have longer (less energy) wavelengths.
Colors can appear different depending on the pre-set established in the camera.
If the intent is to replicate the scene accurately then selecting the correct WB pre-set is important.
If there is creative intent, then an alternative setting can be selected to achieve a certain mood (more on this later).

So what happens when you change the white balance either in camera or from the RAW processing software?
The auto white balance (AWB) function analyses the composition of the scene and compares it to a set of reference metrics stored in the camera's processor and selects the set of parameters most suited to that scene type.
The outcome of this process is that the camera will roughly know what scene type it is looking at and what the colors should be. As a consequence it will shift the white point on the Planckian locus and the green – magenta proportion of all the colors to achieve a similarity between the WB corrected image and the internal reference image that it has selected as a model.
Preset white balance settings work in a similar fashion except that the scene is not analyzed, but instead the colors and the white point are shifted using predefined values of engineered algorithms for  a the specific camera and its sensor.  

Also, a ‘set white balance feature' present on a large number of cameras lets the user effortlessly create a white balance profile to match the exact lighting conditions.
What is needed is a white or neutral grey (preferably non-reflective and called usualy 18% grey) card lit by the respective illuminant that the camera while measure.
This essentially involves holding the card in front of the lens so that it covers the center of the image and pressing the set white balance or equivalent button. The camera will then analyze the image (and the color it will see will most probably not be pure grey but it will rather be a more or less saturated hue) and compensate so that after processing the patch will look grey.

         This method of achieving proper white balance yields remarkably good results due to the fact that it completely removes the influence of the colored incident light, effectively making the picture look as if the scene was illuminated by noon sunlight (white light).

Achieving White Balance can be Complicated
Achieving proper white balance in a scene in which multiple light sources of different types (color temperatures) are present can be quite tricky, such as mixed light a night, but at the same time such scenes may be quite spectacular.
Most problems with white balance appear because in many cases incident light does not come from a black body heated to incandescence (e.g. the Sun). The assortment of lighting fixtures that give off white-ish light we have today have a discrete band emission spectrum.
The incident light might also be reflected from colored surfaces. All this implies a greenish or magenta deviation from the Plankian locus.

During Post Processing White Balance can be Solved Further, if Necessary

The purpose of the tint control in most RAW converters is to enable the photographer to compensate for this deviation in addition to changing the color temperature. As it is, in- camera AWB algorithms might be very suited for some lighting situations but terrible at handling others.
NOTE:  In Lightroom or Camera RAW WB using the sliders can adjust temperature and tint.
NOTE:  As Shot White Balance for any pre-set (auto, manual or custom) is unique for each camera
NOTE:  In post processing one can add more yellow or more blue to change the temperature and/or add more read or more green to correlate tint to the temperature.  The camera is doing the same thing based on the algorithms that are associated with the sensor’s computer processor.

Examples of type of light on a scene in overcast outdoor light

Outdoor Auto WB

Outdoor Daylight WB

Outdoor Shade WB

Outdoor Cloudy WB

Examples of Type of Light on a Scene with Indoor Mixed Light

Indoor Auto WB

Indoor Daylight WB

Indoor Flash WB

Indoor Shade WB

So Why Does White Balance Matter?

Picking the right White Balance initial helps the photographer achieve a suitable reference point for realistic color in a scene.
If the white balance is not correct when the image is taken, it may cause the photographer to have to do much post processing work to get the image to look as originally intended especially since we forget quickly what our eye actually saw at a specific moment in time.
That reference is often the best and most attractive and pleasing way communicate the photographic image to an audience.
So assuming a good white balance was corrected, that it is a good reference point, a photographer can create changes in white balance to achieve a “creative” intent.
Such creative intent can, for example, suggest a specific emotion or that “feeling” that a person has as they view an image.
Photography can be photojournalistic oriented, realistic delights or an artistic expressios.  Through that entire process it is all about capturing light, displaying it in the best way;  i.e. Drawing with Light!

Creative Color Effect

Emotion and Color  figure #1

Emotion and Color figure #2

In Summary

White Balance is based on the rather complicated science of electromagnetic waves, visible light, and color.
While the human eye can adjust and view very effectively the quality, type and color of light, a camera has less ability to do this without specific instructions either built into the camera or manually given to the camera by the operator.
White balance is all about getting the best representation of color for a scene to realistically or creatively communicate photographic intent.
Thus, managing color starting with white balance in the camera is how the photographer captures light and draws with that light.

Please note this is an outline, for more information, do not hesitate to contact the author, John D. Roach at

Copyright © 2013, John D. Roach

Wednesday, July 17, 2013

July 17, 2013

News from John D. Roach
Image Maker at
Bumming Around the World with Camera in Hand

Exhibits and Another Set of Photographic Awards

Wow!  Time flies when one is having fun in retirement.  I am delinquent in posting on this blog.  But I thought today I would bring everyone up to date on some of my activities during the past 6 months or so.  Those of you who watch me on Facebook, Flickr or my Website will know that I continue to learn photography and practice new things.

In January and February I focused on learning Portrait photography.  That definitely is not my cup of tea, but I know a lot more about it and can do it with some degree of skill now.  Jennie (first image) the daughter of my camera club friend Ellen Mann and another friend Shannon (second image) were kind enough to pose for me while I fumbled around with equipment and controls.

This learning experience was driven by the need to make sure I knew what I was doing, since a good friend of our family asked me to do their daughter's Senior Pictures.  At the end of this month, I will be doing those pictures.

In March, Joann and I went to Alaska (Fairbanks and Coldfoot) spending a lot of time well above the Arctic Circle on a Road Scholar adventure trip for two weeks.  What a wonderful time and experience. I was able to take pictures of the Aurora Borealis (Northern Lights) as well as other uniquely Alaskan things.  We attended lectures at the University of Alaska - Fairbanks and travel far up into the Brooks Range almost to the North Slope along the Dalton Highway.  Here are a few images from that trip.

In April I was proud to exhibit two my images at the Art Bar in Milwaukee.  They are architectural images that I had had the privilege of displaying with fellow camera club members back in October at City Hall.   The first image shows two contracting buildings (Wisconsin Gas and US Bank buildings) and the second reflects the architecture of 1876 in Milwaukee (Mitchell Building).

In April also, I entered the Annual Photography Contest at the Union League Club of Chicago.
I was delighted to win three first place blue ribbon awards in various categories (cityscape, black & white and street photography):

I also received a second place for another in the nature category

This summer I am exhibiting Milwaukee some of the above work as well as this one which I am so delighted in:

I continue on my quest of improving my fine art photography.  Here are a few:

In early June, Joann and I went to Door County for a long week-end enjoying the scenery, great dinners and some pretty good wine:

Recently I was in the Upper Peninsula Michigan.  Here are a couple of my favorite from that trips:

Finally, we enjoyed Summerfest in Milwaukee.  We went to the Eagles and Foreigner Concerts.  That was a lot of fun.  Here are two images (Foreigner first, and Eagles second) from those recent events:

Soon I will be taking a trip along the Mississippi and later this year going to Northern Arizona.  Retirement is good.

Copyright © 2013 John D. Roach