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  1. S. W. Richardson, Roy. Soc. Proc. 92, pp. 41-57; Oct.1, 1915.S. W. Richardson, Roy. Soc. Proc. 92, pp. 101-107; Nov.1, 1915.S. W. Richardson, Roy. Soc. Proc. 107, pp. 101-112; Jan.1, 1925.
    [Crossref]
  2. R. Ambronn. Phys. Zeit. 14, p. 112-8; 1913.
  3. A. Campbell. Proc. Phys. Soc., Lond. 25, p. 336-7; 1913.
    [Crossref]
  4. Arch. Sci. Phys. Nat. 4, p. 89-119; 1922.
  5. H. L. Curtis, Bull. Bureau of Standards, 11, , p. 364.
  6. Loc. cit. (4).
  7. Loc. cit.
  8. F. W. Grover, Bull. Bureau of Standards, 3, , p. 389.
  9. Landolt-Bornstein, Physik-Chem. Tabellen.5th Edition.
  10. Zs. f. Drahtl. Tel. 18; p. 82; 1921.

1922 (1)

Arch. Sci. Phys. Nat. 4, p. 89-119; 1922.

1921 (1)

Zs. f. Drahtl. Tel. 18; p. 82; 1921.

1915 (1)

S. W. Richardson, Roy. Soc. Proc. 92, pp. 41-57; Oct.1, 1915.S. W. Richardson, Roy. Soc. Proc. 92, pp. 101-107; Nov.1, 1915.S. W. Richardson, Roy. Soc. Proc. 107, pp. 101-112; Jan.1, 1925.
[Crossref]

1913 (2)

R. Ambronn. Phys. Zeit. 14, p. 112-8; 1913.

A. Campbell. Proc. Phys. Soc., Lond. 25, p. 336-7; 1913.
[Crossref]

Ambronn, R.

R. Ambronn. Phys. Zeit. 14, p. 112-8; 1913.

Campbell, A.

A. Campbell. Proc. Phys. Soc., Lond. 25, p. 336-7; 1913.
[Crossref]

Curtis, H. L.

H. L. Curtis, Bull. Bureau of Standards, 11, , p. 364.

Grover, F. W.

F. W. Grover, Bull. Bureau of Standards, 3, , p. 389.

Landolt-Bornstein,

Landolt-Bornstein, Physik-Chem. Tabellen.5th Edition.

Richardson, S. W.

S. W. Richardson, Roy. Soc. Proc. 92, pp. 41-57; Oct.1, 1915.S. W. Richardson, Roy. Soc. Proc. 92, pp. 101-107; Nov.1, 1915.S. W. Richardson, Roy. Soc. Proc. 107, pp. 101-112; Jan.1, 1925.
[Crossref]

Arch. Sci. Phys. Nat. (1)

Arch. Sci. Phys. Nat. 4, p. 89-119; 1922.

Phys. Zeit. (1)

R. Ambronn. Phys. Zeit. 14, p. 112-8; 1913.

Proc. Phys. Soc., Lond. (1)

A. Campbell. Proc. Phys. Soc., Lond. 25, p. 336-7; 1913.
[Crossref]

Roy. Soc. Proc. (1)

S. W. Richardson, Roy. Soc. Proc. 92, pp. 41-57; Oct.1, 1915.S. W. Richardson, Roy. Soc. Proc. 92, pp. 101-107; Nov.1, 1915.S. W. Richardson, Roy. Soc. Proc. 107, pp. 101-112; Jan.1, 1925.
[Crossref]

Zs. f. Drahtl. Tel. (1)

Zs. f. Drahtl. Tel. 18; p. 82; 1921.

Other (5)

H. L. Curtis, Bull. Bureau of Standards, 11, , p. 364.

Loc. cit. (4).

Loc. cit.

F. W. Grover, Bull. Bureau of Standards, 3, , p. 389.

Landolt-Bornstein, Physik-Chem. Tabellen.5th Edition.

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Figures (8)

F. 1
F. 1

E1, battery for charging the variable condenser C1; S, a highly insulated switch; R, the specimen to be measured; and Q1NQ2, the electrometer.

Tables (1)

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Table 1 Values of Voltage, Saturation Current and Resistance of a Plate of Crystalline Quartz, the Potential Gradient Being Parallel to the Optical Axis.

Equations (15)

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E 1 C 1 = E ( C 1 + C 2 )
E = E 1 C 1 C 1 + C 2
E C 2 = E 1 C 1 C 2 C 1 + C 2 = charge corresponding to deflection D
2 E 1 C 1 = E c 1 + E C 2
E C 2 = E C 2 , E = E
2 E 1 C 1 = E ( C 1 + C 2 ) E = 2 E 1 C 1 C 1 + C 2
E = 2 E 1 C 1 C 1 + C 2 = E 1 C 1 C 1 + C 2
C 2 = C 1 2 C 1
I = d q d t
θ = K V
V = voltage across the quadrants = Q C = charge on quadrants capacity between quadrants
θ = K C t T i ( τ ) d τ
d θ d t = K c i ( t )
fused quartz = 3.88 ± .02
crystalline quartz = 4.04 ± .04