November 2010

Saturday, November 13, 2010

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INAUGURATED THE FILM "THE COVENANT PRODUCTIONS CHANNEL" THE FILM LANUS

were many who wanted to see our films but very hard to please everyone. Is that when it comes to uploading videos to the web there are many varieties, but not full length videos. That's why THE COVENANT PRODUCTIONS opened CHANNEL, http://vimeo.com/channels/elpactoproducciones , a place where the date can be seen six of the eleven film work made in the city of Lanús , "clarifies that the last film, MAROON MOSAIC: THE RETURN does not have any release date, and estimates will be released theatrically. The Management of THE COVENANT PRODUCTIONS has reported that more will be uploaded soon work for which it should have to wait a while, given the costs in digital processes, as well as time that should be expected to raise new material to the web, the latter corresponds to the server Vimeo.

FILMS CAN BE SEEN TO DATE

"Mosaic Garnet three championships" (2002)

"Mosaic Garnet Trademark" (2003)

"Yesterday and Today by Remedios de Escalada" (2003)

"Mosaic Garnet: A Love Story" (2006)

"Cosa Nostra" (2006)

"Alfonsina Diary" (2010)

is estimated that as soon as you can see also Mosaic Garnet: Revenge "in 2001.

MORE INFORMATION

http://elpactoproducciones.blogspot.com

Sunday, November 7, 2010

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Dihedral system. Base.

dihedral system is a method of representing multiple projections, in which the elements are defined by their orthogonal projections on at least two planes of projection.
projection planes that we use typically are 3: plan, elevation and profile . Once you have projected onto each of them the orthogonal views of the object is rotated until they match the three in the same plane.

The cylinder contains a point by point projected on the horizontal and vertical PV PH. As is done with perpendicular, the circumference of the base becomes the standard in a straight line as the plane that contains perpendicular to the vertical.
Being parallel to the floor, the upper surface of the cylinder is transformed this plane into a circle as well.
The line of intersection of vertical and horizontal line is called land.

then turn 90 degrees vertical plane until it coincides with the horizontal axis of rotation taking as the ground line. The rotation causes the two views are perfectly aligned in lines orthogonal to the ground line.

dihedral
The two views (plan and elevation) would be this way. After the rotation of the object dihedral projections are always correlated.

We removed the reference of the outline of the two planes and we already have the plan and elevation. Land line represents dihedral system by a straight line between the plant and the elevation and two segments at the ends.

If the piece has more complexity can be necessary to represent another view in a plane projection. In the figure we see the plane of the profile (PP).

Figure

yellow see in what is projected in the vertical plane, in red and green in horizontal and green on the plane of the profile.

the plant is placed in the orthogonal projection of the piece "seen" from above (in yellow and blue). Correspondingly to the above sum appears that is the front view (orange, green and dark blue) and finally the outline of the piece (in pink), as its name. Non-visible parts of the piece the viewer is positioned as above for the plant, or head to see the elevation appear discontinuous. Dotted lines are lines that exist, which are intersection of surfaces but can not be appreciated for being behind a face.

One piece with their projections in plan, elevation and profile, and axonometric representation after a 90 ° rotation of the same.
The piece, as it has a hollow prism whose edges are tangent to some faces of the figure, these lines appear with a continuous provision because they are visible.

We will represent the dihedral system with another prism prism oblique hollow inside, for that we need two procedures:

one hand we have the European system in which the observer is placed on top of the piece view from above ground. Stands behind the part to see it in the standard or profile. With approach, which viewed from a distant view to avoiding distortion of concurrent lines of perspective, it looks like the orthogonal projections of the object on the three planes of projection.

Once you have designed the three views on the three planes of projection, the profile plane is rotated 90 ° to match it to the the elevation plane. Then the two planes are rotated until they match the plant, all coinciding with the plane of the picture or paper. The turn is always relative to the line of intersection of the planes.

On the other hand we have the American system, in which a representation of the practice excludes the observer, the object is just as if they reflect on the three planes of projection being the mirrors. The image of the three faces of the piece reflected are displayed on the three planes of projection.

For the elevation and profile views, both planes are rotated 90 degrees so that match the floor plan, so are the three dihedral system views. The LT is a line formed by a large segment alternate to two small and so on.

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foundation elements: point, line and plane.

Diedric system. Elements. Point, straight line and plane. Figure

see the two planes that intersect orthogonally, and on which objects are projected, the plant (horizontal) and the elevation (vertical). The two planes divide the space into four parts: the first, second, third and fourth quadrant.

can use a different projection plane to provide more information about the object being represented. This map is called profiling and is perpendicular to the ground line, which is the intersection of the floor plan and elevation (in magenta).
observe the division into four quadrants (from 1 to 4 °) generated floor plans and elevation.
The three projection planes divide the space into 8 pieces.

The representation of a dihedral point system is given by its orthogonal projections on three planes: a point P is transformed into its 3 projections P1 P2 P3.

Then the plans are open until they are all coplanar, turn the plane profile 90 ° to the vertical and once left in the same plane as it , turn the vertical (and in profile, who are already the same plane) 90 ° to the horizontal, so we have 3 planes coincide with the paper in that we represent. The turn of the plans shows that the projections of the point will always are aligned perpendicular to the line of intersection of each pair of planes. All that part of space: the point P, its projection lines (from P to P1, P2 P, etc.) Disappears. In dihedral only represents what is projected on the 3 planes of projection.

dihedral So are the views of one point: the plan, elevation and profile are always correlated.

Plans Plans
projection

A plane is represented by the intersection with the planes of projection, these intersections are called traces. The red plane intersects the planes of projection according to the plans a1 (horizontal trace) a2 (vertical trace) a3 (profile trace).

Theorem for all levels: the trace of a plane always intersect at one point on the ground line. (For a straight-LT-cut to a plane at one point, if you do it in two or more is that is contained therein, in this case all traces agree points on the LT, it is said that the plane passes through the LT).

An oblique plane trace c has its oblique (not orthogonal) with respect to the ground line.

Other oblique plane.

Plans

the first bisector bisectors second 1b and 2b, bisect the horizontal plane and vertical.

map projecting ridge or vertical trace is vertical and horizontal oblique a2 a1 orthogonal to the LT.

f Frontal plane: parallel to the vertical and horizontal trace is parallel to the LT.

h horizontal plane parallel to the horizontal and vertical trace h2es parallel to the LT.

plane parallel to the LT: p1 p2 has its traces parallel to the LT.

plane through the ground line, has its traces in the LT.

vertical plane, the vertical trace a2 is vertical, the horizontal should be oblique, but we have a flat profile.

Straight Lines are represented by their projections but can also be defined by its trace (points where it cuts the planes of projection).
The line to and their projections that define: a1 a2.
Their trace has vertical and horizontal Va.

A line is defined by two projections may be your plan and elevation or plan and profile or standard profile, etc.

The penetrates straight going over the 2 nd quadrant below have in the 4 th quadrant and its projections are visible in the 1 st quadrant. By convention the parties do not represent discontinuous visible.

Here we have the same straight dihedral system defined in its projections a1 a2 with the quadrants through which it passes.

Here we see the representation of an oblique line with its traces on the horizontal and vertical Hr Vr.

dihedral representation of the previous line

A front straight, parallel to vertical and oblique to the horizontal.

A line parallel to the LT.

A profile, which may be included in a plane orthogonal to the LT. The particular case of the profile are the horizontal, vertical and passing through the LT.

A straight-edge, orthogonal to the PV.

A vertical, orthogonal to PH.

planes Lines and dihedral system

The lines are represented by their projections and are shown in red all the traces which are the points where they cut to the planes of projection.

1 - Vertical
2 - De punta
3 - Oblique
4 - Oblique
5 - Horizontal
6 - Front
7 - What happens on the ground line
8 - In profile
9 - In profile, which passes through ground line and is included in the first bisector.

planes are represented by their traces are the lines where they cut to the planes of projection.

10 - Vertical or horizontal projecting
11 - 12
Oblique - Oblique
13 - Horizontal
14 - Front
15 - De ridge or vertical projecting
16 - In profile
17 - What happens on the ground line
18 - Parallel to ground line.