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a_measured_brush
I am a student of the Bible for about 50 years now. When I was 20 I chose the topic of the Trinity and examined the arguments and evidence for and against this doctrine from Bibles and Bibles reference works as well as the historical context in a College seminary library where I worked at the time. I also checked the sources of the quotations made by the Watchtower Bible and Tract Society. There is no doubt at all that Jehovah's Witnesses are the one who speak the truth. For the past twenty years I have been pursuing art as a hobby and I am working on my own personal theory of representing three dimensional perspective in two dimensions without vanishing points based on our cone of vision and polar spherical trigonometry. My artist pseudonym is "Bambootiger". I have many other interests as well, such as horticulture and music theory. http://bambootiger.spaces.live.com/default.aspx?sa=954633007
Do you have some suggestions on skin tones?
Here is the project. What parts of the skin would you work on next?
1 AntwortPaintingvor 1 JahrzehntIf you are good at math and deriving formulas?
I asked this question before, but it was removed, presumable I suppose it is because I linled to one of my works for the purpose of illustration. So I will ask it again without the link.
Here is the approach to perspective I developed on my own. I would like to see if there are any helpful suggestions by the math adept:To figure out the scale at any point by measuring to that point from the horizon:
(( 1- (( horizon height from base - y from the horizon) divided by horizon height from base)) times base scale)
To figure the distance:
(1 divided by (1-(( horizon height from base- y from horizon) divided by horizon height from base)) times ground distance)
However, the problem is that it is not convenient to measure from the horizon, or where the eye level falls on the paper, because often you can't see where it is, and because the measuring of it from there would smudge up the drawing.
So we can measure from the ground instead:
((( the value of the horizon height from base - y from the ground) divided by the value of the horizon height from the base) times the base scale)
This would correspond to a one point perspective. I figured the station point at the corner of her eye on your right side. For the scale of each point of x (what is to your right or your left) , and how it would diminish with distance from the viewer (the z ) I visualize two imaginary lines running through the station point. One is the horizon, which is the y line, and the other is perpendicular to it which is the x. The base scale on this picture was 35/138 of life and the ground is 11 and 1/2 feet away. The way I figured that is by measuring from the corner of the eye to the chin . when the head is level and not tilted up or down this chin to eye corner distance this is usually 20/39 of the chin to crown distance of the head, and the head here is 9/70 of the figure height. . I figure her head is 8 and 3/4 inches from chin to crown and that would make her 68 inches tall. I haven't done a detailed study of her proportions yet though. So it is just my working theory at the moment.
There are some problems with my perspective approach here. Imagine that you are looking at a wall. If it is the same height of your eye line and perpendicular to you then the top of the wall marks your horizon. The ends of the wall to your right and left are farther away from you than is the center, and if you drew a wide enough scene of the wall you would have to diminish the scale to the right and left towards the horizon. The way I drew my projest wouldn't do that, that is diminish with the distance of positive X or negative X
So I think that I need to re-think it a bit. I'm thinking about use rho, which is the square root of radius squared plus distance (z) squared. The radius is the square root of x squared plus y squared. On my calculator you could also say that rho is the square root of x squared plus y squared plus z squared. There is a small difference in the results but this is literally not rocket science. It is really hard to mentally fathom a three dimensional triangle but basically rho is the hypotenuse of the three dimensional right triangle where the other sides are x (right or left), y (up or down), and z (the distance straight in front of you.)
So what I would like to do is use rho to determine scale, and have a formula which includes angles of view. Our normal angle of view that is in sharp focus id considered to be the arc tangent of 1/4 from the horizon (the center vertex of our cone of vision) , to the ground ( where the cone intersects it). I think it would be great to draw a scene with a "fish eye" view where the scale diminishes quickly with distance from the station point, or of a telephoto view where the scale diminishes slowly from the station point.
So how would you approach this problem, or change the methold I have presented?
1 AntwortMathematicsvor 1 JahrzehntJehovah's Witnesses, if my camera could tale a picture,?
that is. of you, in the future when the earth is restored to the paradise that Jehovah purposed and I asked you to pose for a photo with a few of your favorite animals which ones would you choose to have in your picture?
27 AntwortenReligion & Spiritualityvor 1 JahrzehntWhat is the best way to stretch paper?
1 AntwortPaintingvor 1 JahrzehntIf you are not good at drawing people would you be willing to use a little math?
Here is a link to show what I am talking about:
2 AntwortenDrawing & Illustrationvor 1 JahrzehntDoes freedom depend on law or upon a lack of it?
To see my view please read the message at this link:
9 AntwortenPhilosophyvor 1 JahrzehntIn regard to the painting "Mona Lisa" by Leonardo DaVinci how tall was his Model?
I'm not talking about how tall was she in the painting when she was sitting down, but what I am asking is what was her height standing up, and what is there in the painting that you would base your guess on? I have a math theory based on measurments in the painting , and some other things, and I'll give my own guess at the end of the thread.
2 AntwortenMathematicsvor 1 Jahrzehnt