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Coordinates of atoms and their thermal parameters for Cu ( NO3 ) 2 H2O and B - Cu ( NO3 ) 2 y Cu ( NO3 ) 2 · H2O 0.58114 ( 7 ) 0.4350 ( 4 ) 0.3413 ( 6 ) 0.2472 ( 5 ) 0.8798 ( 4 ) 0.7742 ( 4 ) 1.0242 ( 5 ) 0.5752 ( 5 ) 0.3371 ( 5 ) ...
Coordinates of atoms and their thermal parameters for Cu ( NO3 ) 2 H2O and B - Cu ( NO3 ) 2 y Cu ( NO3 ) 2 · H2O 0.58114 ( 7 ) 0.4350 ( 4 ) 0.3413 ( 6 ) 0.2472 ( 5 ) 0.8798 ( 4 ) 0.7742 ( 4 ) 1.0242 ( 5 ) 0.5752 ( 5 ) 0.3371 ( 5 ) ...
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PHYSICAL METHODS OF INVESTIGATION Thermal Constants of Melting of Holmium Iodide V. F. Goryushkin , A. I. Poshevneva , and N. G. Vinokurova Siberian State Academy of Mining and Metallurgy , Novokuznetsk , Russia Received January 20 ...
PHYSICAL METHODS OF INVESTIGATION Thermal Constants of Melting of Holmium Iodide V. F. Goryushkin , A. I. Poshevneva , and N. G. Vinokurova Siberian State Academy of Mining and Metallurgy , Novokuznetsk , Russia Received January 20 ...
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Partial thermal decomposition of Hol , gives rise to an extra error in constants of melting . Nevertheless , one should not put too much iodine into the ampule because the high vapor pressure could cause an explosion .
Partial thermal decomposition of Hol , gives rise to an extra error in constants of melting . Nevertheless , one should not put too much iodine into the ampule because the high vapor pressure could cause an explosion .
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Vol 41 No 9 | 1349 |
The Cu₂GeTe3CdTe System and the Structure of the Compound Cu₂CdGeTe4 | 1356 |
Ammonium Sodium Tripolyphosphate NH44NaP3O10 4H2O | 1363 |
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