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The measurements have been carried out using a scale with sufficient precision, capable to appreciate the hundredth of a gram, first weighing the pen completely discharged, washed and totally dried (to avoid even the small error possibly introduced by the remaining ink in the [[feeder]]) and then loaded with water. For a comparison that takes into account the liquid remaining in the feeder, the weight was measured several times starting from the first empty and dry loading, repeating the loading and unloading cycles.  
 
The measurements have been carried out using a scale with sufficient precision, capable to appreciate the hundredth of a gram, first weighing the pen completely discharged, washed and totally dried (to avoid even the small error possibly introduced by the remaining ink in the [[feeder]]) and then loaded with water. For a comparison that takes into account the liquid remaining in the feeder, the weight was measured several times starting from the first empty and dry loading, repeating the loading and unloading cycles.  
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We measured several times (around 10) both the weight when the pen is loaded and when the pen is unloaded, the latter is used to estimate how much liquid remains in the [[feeder]], but we took as an indication of the filling capacity the value with the pen fully filled, because pens are filled once the ink is finished and no longer reaches the nib, and this also includes the one present in the feeder. From the various measurements we obtained average and standard deviation.
 
We measured several times (around 10) both the weight when the pen is loaded and when the pen is unloaded, the latter is used to estimate how much liquid remains in the [[feeder]], but we took as an indication of the filling capacity the value with the pen fully filled, because pens are filled once the ink is finished and no longer reaches the nib, and this also includes the one present in the feeder. From the various measurements we obtained average and standard deviation.
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The capacity in ml was then determined using the specific weight of the water which is 0,997 g/ml. The difference between tap water and pure water is below the appreciable limits of the measurement in centigrams, and inessential for the measurement whose accuracy is ±0.02 ml (sum of the systematic error of the balance for the difference between two measurements, of 0.01 g), for the conversion, however, we can substantially assume an equivalence of 1 g => 1 ml being the difference below the measurement error.  
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The capacity in ml was then determined using the specific weight of the water which is 0,997 g/ml. The difference between tap water and pure water is below the appreciable limits of the measurement in centigrams, and inessential for the measurement whose accuracy is ±0.02 ml (sum of the systematic error of the balance for the difference between two measurements, of 0.01 g), for the conversion, however, we can substantially assume an equivalence of 1 g => 1 ml being the difference below the measurement error.
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Riga 47: Riga 52:  
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