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  1. A. van Kreveld, Phot. J. 74, 590–596 (1934).
  2. A. C. Hardy and F. Ross, The Physics of the Developed Image (Rochester, 1924), pp. 21–34;A. Küster, Agfa-Veröffentlichungen 3, 93 (1933);S. D. Threadgold, Kinotechnik 14, 297 (1932); Ornstein, Moll, and Burger, Objective Spectralphotometrie (Braunschweig1932), p. 75.
  3. J. Eggert and G. Archenhold, Zeits. f. physik. Chemie 110, 497 (1924).
  4. Th. Dunham, Bericht VIII. Int. Phot. Congress p. 294 (1932).
  5. A. van Kreveld, Communication IX Int. Phot. Congress, Paris, 1935 (not yet printed).
  6. J. Eder, Rezepte, Tabellen, Arbeitsvorschriften, 14–15 edition (Wien, 1933), p. 76.
  7. Ornstein, Moll, and Burger, reference 2, p. 60.
  8. This correction will be described in a following paper. It has not been applied to the data given in this paper. It causes a somewhat higher ΔD at the larger densities so that the maxima of the ΔD(D) curves become flatter than those of Fig. 9.
  9. W. Reinders and M. Beukers, Bericht VIII. Int. Phot. Congress, p. 177.
  10. Ornstein, van der Held, and Vermeulen, J. O. S. A. 20, 573 (1930).
    [Crossref]
  11. A. C. Hardy, reference 2.

1934 (1)

A. van Kreveld, Phot. J. 74, 590–596 (1934).

1932 (1)

Th. Dunham, Bericht VIII. Int. Phot. Congress p. 294 (1932).

1930 (1)

Ornstein, van der Held, and Vermeulen, J. O. S. A. 20, 573 (1930).
[Crossref]

1924 (1)

J. Eggert and G. Archenhold, Zeits. f. physik. Chemie 110, 497 (1924).

Archenhold, G.

J. Eggert and G. Archenhold, Zeits. f. physik. Chemie 110, 497 (1924).

Beukers, M.

W. Reinders and M. Beukers, Bericht VIII. Int. Phot. Congress, p. 177.

Burger,

Ornstein, Moll, and Burger, reference 2, p. 60.

Eder, J.

J. Eder, Rezepte, Tabellen, Arbeitsvorschriften, 14–15 edition (Wien, 1933), p. 76.

Eggert, J.

J. Eggert and G. Archenhold, Zeits. f. physik. Chemie 110, 497 (1924).

Hardy, A. C.

A. C. Hardy and F. Ross, The Physics of the Developed Image (Rochester, 1924), pp. 21–34;A. Küster, Agfa-Veröffentlichungen 3, 93 (1933);S. D. Threadgold, Kinotechnik 14, 297 (1932); Ornstein, Moll, and Burger, Objective Spectralphotometrie (Braunschweig1932), p. 75.

A. C. Hardy, reference 2.

Moll,

Ornstein, Moll, and Burger, reference 2, p. 60.

Ornstein,

Ornstein, van der Held, and Vermeulen, J. O. S. A. 20, 573 (1930).
[Crossref]

Ornstein, Moll, and Burger, reference 2, p. 60.

Reinders, W.

W. Reinders and M. Beukers, Bericht VIII. Int. Phot. Congress, p. 177.

Ross, F.

A. C. Hardy and F. Ross, The Physics of the Developed Image (Rochester, 1924), pp. 21–34;A. Küster, Agfa-Veröffentlichungen 3, 93 (1933);S. D. Threadgold, Kinotechnik 14, 297 (1932); Ornstein, Moll, and Burger, Objective Spectralphotometrie (Braunschweig1932), p. 75.

van der Held,

Ornstein, van der Held, and Vermeulen, J. O. S. A. 20, 573 (1930).
[Crossref]

van Kreveld, A.

A. van Kreveld, Phot. J. 74, 590–596 (1934).

A. van Kreveld, Communication IX Int. Phot. Congress, Paris, 1935 (not yet printed).

Vermeulen,

Ornstein, van der Held, and Vermeulen, J. O. S. A. 20, 573 (1930).
[Crossref]

Bericht VIII. Int. Phot. Congress (1)

Th. Dunham, Bericht VIII. Int. Phot. Congress p. 294 (1932).

J. O. S. A. (1)

Ornstein, van der Held, and Vermeulen, J. O. S. A. 20, 573 (1930).
[Crossref]

Phot. J. (1)

A. van Kreveld, Phot. J. 74, 590–596 (1934).

Zeits. f. physik. Chemie (1)

J. Eggert and G. Archenhold, Zeits. f. physik. Chemie 110, 497 (1924).

Other (7)

A. C. Hardy and F. Ross, The Physics of the Developed Image (Rochester, 1924), pp. 21–34;A. Küster, Agfa-Veröffentlichungen 3, 93 (1933);S. D. Threadgold, Kinotechnik 14, 297 (1932); Ornstein, Moll, and Burger, Objective Spectralphotometrie (Braunschweig1932), p. 75.

A. C. Hardy, reference 2.

A. van Kreveld, Communication IX Int. Phot. Congress, Paris, 1935 (not yet printed).

J. Eder, Rezepte, Tabellen, Arbeitsvorschriften, 14–15 edition (Wien, 1933), p. 76.

Ornstein, Moll, and Burger, reference 2, p. 60.

This correction will be described in a following paper. It has not been applied to the data given in this paper. It causes a somewhat higher ΔD at the larger densities so that the maxima of the ΔD(D) curves become flatter than those of Fig. 9.

W. Reinders and M. Beukers, Bericht VIII. Int. Phot. Congress, p. 177.

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Figures (9)

F. 1
F. 1

Registrogram of a homogeneous black area, bordered by clear parts.

F. 2
F. 2

Registrogram of a plate freed from silver grains.

F. 3
F. 3

Enlarged registrograms printed with millimeter scale.

F. 4
F. 4

Observed frequency laws of the eight registrograms, compared with Gaussian frequencies.

F. 5
F. 5

Optical part of the graininess meter.

F. 6
F. 6

Connection of the barrier layer cells.

F. 7
F. 7

The optical rectifier.

F. 8
F. 8

Density curves of the measured plates. A. Metol developer. B. Hydroquinone developer.

F. 9
F. 9

ΔD as a function of the density. A. Metol. B. Hydroquinone.

Tables (3)

Tables Icon

Table I The plates for the statistical analysis.

Tables Icon

Table II The values of m as a function of i.

Tables Icon

Table III ΔJ/J in percent, as a function of the density A. Metol. B. Hydroquinone.

Equations (2)

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Δ D = m / 2 .
Δ D × 2 × const .