~LESSON 9~
Outdoor Strobe
f13 @ 1/160 no strobe
f13 @ 1/160 strobe
f16 @1/160 strobe +2
f22 @ 1/160 strobe +4
Sunday, October 30, 2016
Wednesday, October 26, 2016
Wednesday, October 19, 2016
Tuesday, October 11, 2016
Monday, October 3, 2016
LESSON 4
Size Matters
In the photo on the left the beauty dish was approx 10 feet from the subject.
In the photo on the right the Octabank was approx 3 feet from the subject.
As an attempt to make the light and shadows on Carla's face as similar as possible between the two photos, I moved the beauty dish far away from, and Octabank closer to, the subject.
Why?
Because the more distance between the light and subject is relative to the size / diameter of the light source. Thus, in order to compensate for the greater diameter of the Octabank I shortened the distance to the subject, and did the reverse with the beauty dish.
But . . .
If I did this exercise again I would move Carla farther away from the background in the photo on the left, so that her shadow on the backdrop was more diffused like the photo on the right. I would also add in a reflector in the photo on the right, positioned to fill out the left side of her face.
Saturday, October 1, 2016
~LESSON 2 ~
3 laws of light.
1. Light travels in a straight line
As shown by the shadow created by the two cards.
As shown by the shadow created by the two cards.
2. The farther you are from the light source the dimmer the light (inverse square law)
As shown by the diminishing intensity of the light through the gap in the cards as it travels towards the mirror, and also the diminishing intensity of the light beam bouncing away from the mirror.
As shown by the diminishing intensity of the light through the gap in the cards as it travels towards the mirror, and also the diminishing intensity of the light beam bouncing away from the mirror.
3. Angle of reflection = Angle of incidence
As shown by the right angle created by the light beam hitting the mirror and the beam bouncing off from the mirror. We included a small amount of reflection in the mirror so you could see how the angle created by the beam and its reflection are equal to the refracted beam and its reflection.
As shown by the right angle created by the light beam hitting the mirror and the beam bouncing off from the mirror. We included a small amount of reflection in the mirror so you could see how the angle created by the beam and its reflection are equal to the refracted beam and its reflection.
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