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4) Basics: Audio (Sound)

Sound is all around us. We don’t need any particular talent to use it. Doctors tell us that we can hear sounds in the womb.

Using sound well is a different story. Being able to judge sound so it is the best possible for your clients is another different story.

For a simple definition, “Sound” is what we hear. But actually every sound involves hundreds of steps. These steps start with a motion that occurs at one point. You can think about it like a pebble that is thrown into a pond.
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2) A Look at Light

Pictures are complicated. Moving pictures on the screen are more complicated. Seeing pictures on the screen is also complicated. But somehow we have to learn enough about it so that we can help control it.

Pictures are made of colors. For this lesson, we are going to say that even black and white are colors, even though they really determine the range of and darkness of a color. So, for example, inside the deep forest we will see deep greens that are almost black, and we will see bright green moss or leaves that are closer to white. The same is true of brick red and pink cherry ice cream or the deep blue suit of the executive and the light blue scarf that she is wearing.

Color scientists could turn that one paragraph into books of information about intensity and hue and many other interesting topics, but we need to stay focused (just like the picture does, but that is in another lesson.)

When we see a picture on the screen, we are actually seeing 24 separate pictures every second…or 25 pictures per second in Europe and other parts of the world. And since we are seeing digital cinema from digital projectors, we are actually seeing digital pictures.

What the heck does that mean, digital pictures?

If we go a few steps back in the chain before the picture hit the screen, we can see that the picture went through a piece of glass – called the port glass – and then we see it coming out of a lens. Very expensive that lens, but films used lenses and port glass too, so that isn’t what makes them digital. What makes them digital is just before that. There are 3 electronic chips made of thousands and thousands of very tiny mirrors that respond to the information coming from the media player. The media player is really just a computer playing a huge file.

Imagine being able to reflect light with some mirrors. Now, imagine those mirrors are so tiny that you can fit millions of them into one small computer chip. Now imagine that you can control them so fast that they move to the angle you want them to move to a hundred times a second. Now, imagine one of them being flooded with red light, one with blue light, and one with green light, and these mirrors are crazily pointing little dots of red and blue and green light to the lens, or away from the lens. Now, imagine that they are so coordinated that the colors combine to make faces and fountains and butterflies appear on the screen.

OK; you can imagine that. I prefer to think of it as magic, but let’s not argue.

The projectors in your room, Barco, Christie and NEC, all use Texas Instruments DLP (Digital Light Projection) DMDs (Digital Micromirror Devices). Sony projectors use a slightly different kind of magic that does something similar.

And that is what makes it a digital device. The pictures in the computer file are made of computer code that are made of ones and zeros…a one makes the mirror go one direction (to point light on the lens), and the zero makes the mirror point to a giant hole of magic blackness where tiny little creatures watch the same movie we see, only seeing the opposite.

Meanwhile, back on the screen. We know that red light and green light will create yellow light. A little less green (or more red) and we see brown then orange, and a little more green (or less red) and we see lighter then more intense shades of green. Different combinations of red and green and blue give us a very wide range of colors to see. In fact, there are billions of combinations that make billions of colors.

If we combine all three colors equally with all the energy we can deliver, the colors join to make white. Make the energy less intense but keeping the amounts of red and green and blue equal, and we get a shade of grey. As the energy gets less, the greys go down to black.

If we slightly change the proportion of red and green and blue, that grey color will shift. We will be able to see a pink or yellow or greenish ‘cast’ in the grey.

But this is where the eyes and nerves and brain and memory come in to make seeing a picture  a complicated thing. Because we know what a blue sky is, what red is, what white is, and when we see a bright white coming from the screen we can be pretty certain that this a very bright white!

Except it isn’t. The brightest white that we see in the cinema theater is hundreds, and even thousands of times less bright than what we see outside when we see a blue sky and a bright pool bathed in sunlight. Our human visual system tries to make things better for us. Which is sometimes a good thing. Because if the system didn’t do that, we would not think that the bright white in a cinema theater was very interesting…but we do. Yet more magic.

 

And that is the background for Part Two of A Look at Light.

Monday CleanUp

Do this to make sure things don’t get out of hand…

Busy weekend, eh? That usually means things are put aside, waiting for time to put them away properly. We won't say the word "Mess", but if organization is just having enough places to put thing, we are missing places to put things! 5 Minutes – Just a quick cleaning pass, to put things away, then back to the real job. Thanks!