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Container, symbolism

Figure 11. Antijunctions and mesojunctions. (a) A 949 knot drawn in a DNA context. Each of the nodes of this knot is shown to be formed from a half-turn of double helical DNA. The polarity of the knot is indicated by the arrowheads passing along it. Various enclosed areas contain symbols indicating the condensation of nodes to form figures. The curved double-headed arrow indicates the condensation of two half-turns into a full turn, the solid triangle indicates a three-arm branched junction, the empty square indicates a 4-strand antijunction, and the shaded square is a four-strand mesojunction. (b) Schematic drawings of 3-strand and 4-strand junctions, antijunctions, and mesojunctions shown as the helical arrangements that can flank a triangle or a square. Each polygon is formed from strands of DNA that extend beyond the vertices in each direction. The arrowheads indicate the 3 ends of the strands. The vertices correspond to the nodes formed by a half-turn of double helical DNA. Base pairs are represented by lines between antiparallel strands. Thin double-headed arrows perpendicular to the base pairs represent the axis of each helical half-turn. The lines perpendicular to the helix axes terminating in ellipses represent the central dyad axes of the helical half-turns. The complexes 33 and 44 correspond to conventional branched junctions. The complex 40 is a 4-strand antijunction. The complexes on the bottom row are mesojunctions, which contain a mix of the two orientations of helix axes. Figure 11. Antijunctions and mesojunctions. (a) A 949 knot drawn in a DNA context. Each of the nodes of this knot is shown to be formed from a half-turn of double helical DNA. The polarity of the knot is indicated by the arrowheads passing along it. Various enclosed areas contain symbols indicating the condensation of nodes to form figures. The curved double-headed arrow indicates the condensation of two half-turns into a full turn, the solid triangle indicates a three-arm branched junction, the empty square indicates a 4-strand antijunction, and the shaded square is a four-strand mesojunction. (b) Schematic drawings of 3-strand and 4-strand junctions, antijunctions, and mesojunctions shown as the helical arrangements that can flank a triangle or a square. Each polygon is formed from strands of DNA that extend beyond the vertices in each direction. The arrowheads indicate the 3 ends of the strands. The vertices correspond to the nodes formed by a half-turn of double helical DNA. Base pairs are represented by lines between antiparallel strands. Thin double-headed arrows perpendicular to the base pairs represent the axis of each helical half-turn. The lines perpendicular to the helix axes terminating in ellipses represent the central dyad axes of the helical half-turns. The complexes 33 and 44 correspond to conventional branched junctions. The complex 40 is a 4-strand antijunction. The complexes on the bottom row are mesojunctions, which contain a mix of the two orientations of helix axes.
Electrical diagrams contain symbols used to represent the various circuit elements. For example, Figure 10.5 is a simple DC circuit containing a battery, a switch, and a resistor. [Pg.266]

If a figure contains symbols that require long explanations or has more than four or five symbols, then the key to the symbols will be large and give the artwork a cluttered appearance. In this case, put the key to the symbols in the caption. Make sure that the symbols and abbreviations in the caption agree with those in the figure itself and in the text and that the symbols are typographically available. [Pg.365]

It is easy to observe that we subtract all results from the sum of responses that contain symbol a . By the same procedure, we can write the effect of factors B and C. It results in ... [Pg.427]

It is suggested that the high experienced depends upon the emotional state of the user and his or her expectations. Users have reported hallucinations both frightening and pleasant, and they often contain symbolic content of personal significance to the sniffer. [Pg.29]

The Wordless Book is unique among the old alchemical works. As its name implies, it is not written in words at all. Instead, its 15 engraved plates contain symbols only—and, unlike most other alchemical texts, it gives the full alchemical process from the start to the end. [Pg.70]

Mathematica statements can contain symbols for stored variables as well as constants. A variable stands for a location in the computer memory in which a numerical value can be stored. Variable names can contain any number of letters and/or digits. However, they cannot begin with a digit. Begin your variable names with a lowercase letter to avoid confusion with Mathematica functions and other Mathematica objects, which always begin with a capital letter. Also remember that xy would represent a variable called xy while x y (with a space between the letters) stands for the product of the two variables x and y. [Pg.74]

The fourth field is white its use tends to be more variable than the other three, both in meaning and in what letters or numbers are written there. It can contain symbols such as ... [Pg.192]

The first list below contains symbols or phrases, each of which has a partner in the second list. Match the partners there is only one match for each pair of symbols or phrases. [Pg.29]

Chemical affinity tables were made up of columns containing symbols denoting pure chemical substances that behaved Uke stable building blocks in replacement reactions. The pragmatics of the table included the presupposition that the combination of two symbols, the one found at the head of a column and the other below, stood for a chemical compound. A chemical compound was thereby represented as a binary entity. The one-to-one correspondence between a symbol and the denoted component represented visually the binarity of constitution. [Pg.57]

Table 9.1 Coefficients The index a can take the vaiues 1 and 2, b stands for + or - to replace the sign in the table entries while c is v + 1, v, or v - 1. The resulting five possible coefficients are given in the last two lines. Each of these values has to be multiplied by the quotient [prefactor] in the first line containing symbols defined in Eq. (9.66). Table 9.1 Coefficients The index a can take the vaiues 1 and 2, b stands for + or - to replace the sign in the table entries while c is v + 1, v, or v - 1. The resulting five possible coefficients are given in the last two lines. Each of these values has to be multiplied by the quotient [prefactor] in the first line containing symbols defined in Eq. (9.66).
Then we take three different phase sequences. We tabulate all the PAPRs of original symbols and those of rotated symbols with different phase values. We classified the input data (256 symbols) into four different classes. Class O contains symbols without phase shift, which results in minimum PAPRs as compared to rest of their three rotated versions. Class A comprised of those symbols which result in... [Pg.110]

Mathematica statements can contain symbols for stored variables as well as constants. A variable stands for a location in the computer memory in which a numerical value can be stored. Variable names can contain any number of letters and/or digits. However, they cannot begin with a... [Pg.63]

The list contains symbols and indices used throughout the book. Note in some cases the same symbol has been used for a mole-specific and a mass-specific quantity,... [Pg.11]

Color-coded systems are used to label hazardous materials. Some labels use colored bars or diamonds that indicate the type of hazard. A red bar or diamond indicates a fire hazard. Yellow bars or diamonds indicate a reactivity hazard. Blue bars or diamonds indicate health hazards. White bars identify the need for personal protective equipment such as glasses, gloves, faceshields, rubber aprons, or respirators. A white diamond contains symbols regarding the health hazards the chemical may cause, warnings such as OX for oxidizer, ACID for acid, ALK for alkali, COR for corrosive, W for use no water, and a radioactive symbol. [Pg.224]

See other pages where Container, symbolism is mentioned: [Pg.11]    [Pg.108]    [Pg.31]    [Pg.141]    [Pg.612]    [Pg.73]    [Pg.90]    [Pg.115]    [Pg.219]    [Pg.161]    [Pg.206]    [Pg.205]    [Pg.188]    [Pg.34]    [Pg.262]    [Pg.195]    [Pg.8]    [Pg.154]    [Pg.2979]    [Pg.152]   
See also in sourсe #XX -- [ Pg.185 ]



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