Update app.py

app.py

@@ -154,7 +154,7 @@ Argument against: However, the practice of alchemy was not limited to the manipu
     st.write(" ... ")
 
     st.write("""
-    Formulate 10 diverse hypotheses related to the context and then find arguments that support and refute these hypotheses . Answer only the Dutch language 
+    Formulate 10 diverse hypotheses related to the context and then find arguments that support and refute these hypotheses . Answer only in the Dutch language 
 
 Response time: 0.5270816530000104 seconds
 
@@ -251,6 +251,103 @@ Argumenten tegen:
 
 
     st.write(" ... ")
+
+    st.write("""
+    Formulate 10 diverse hypotheses related to the context and then find arguments that support and refute these hypotheses and express your confidence in the given answers in a score between 0 and 1. Answer only the Dutch language .
+
+
+
+Response time: 0.7786305489999847 seconds
+Hypothesis 1: The use of Kaliveldspaat in the basisglazuur can lower the melting point of the glaze.
+
+Support: The text states that Kaliveldspaat is added to the basisglazuur in a percentage of 5-10% to enable the glaze to be applied on earthenware. This implies that Kaliveldspaat can lower the melting point of the glaze, making it suitable for use on earthenware.
+
+Refutation: The text does not provide specific information on the effect of Kaliveldspaat on the melting point of the glaze. However, it is mentioned that Kaliveldspaat is added to the basisglaze for earthenware, which suggests that it has a lower melting point.
+Confidence score: 0.8
+
+
+Hypothesis 2: Zirkoonsilicaat is used to create pastel colors in the glaze.
+
+Support: The text states that Zirkoonsilicaat is added to the basisglaze in a percentage of 10% to enable the glaze to be written and mattered. It is also mentioned that it is used for creating pastel colors.
+
+Refutation: The text does not provide specific information on how Zirkoonsilicaat creates pastel colors. However, it is mentioned that it is added to the basisglaze for this purpose.
+
+Confidence score: 0.7
+
+
+Hypothesis 3: The chemical structure of Quartz changes due to heating and erosion.
+
+Support: The text states that the chemical structure of Quartz changes due to heating and erosion. It also mentions that the finest and most eroded form of Quartz on earth is clay.
+
+Refutation: The text does not provide specific information on the mechanism of this change. However, it is mentioned that the chemical structure of Quartz changes due to heating and erosion.
+
+Confidence score: 0.9
+
+
+Hypothesis 4: The melting point of a glaze can be determined by the position of the oxides in the periodic table.
+
+Support: The text describes a system for representing the chemical structure of a glaze, where the melting point regulators are placed on the left, the amphoteric metals in the middle, and the fusible metals on the right. This suggests that the position of the oxides in the periodic table can be used to determine the melting point of a glaze.
+
+Refutation: The text does not provide specific information on how the position of the oxides in the periodic table can be used to determine the melting point of a glaze. However, it is mentioned that the chemical structure of a glaze can be represented in this way.
+
+Confidence score: 0.6
+
+
+Hypothesis 5: The glaze recipe is traditionally kept secret among potters.
+
+Support: The text states that in the past, glaze recipes were not shared among potters due to competition.
+
+Refutation: The text also states that this secrecy is no longer necessary due to the introduction of Hr. Seger's system for representing the chemical structure of a glaze.
+
+Confidence score: 0.8
+
+
+Hypothesis 6: The melting point of a glaze can be adjusted by adding certain oxides.
+
+Support: The text describes a system for representing the chemical structure of a glaze, where the melting point regulators are placed on the left.
+
+Refutation: The text does not provide specific information on how the melting point of a glaze can be adjusted by adding certain oxides. However, it is mentioned that the chemical structure of a glaze can be represented in this way.
+
+Confidence score: 0.7
+
+
+Hypothesis 7: The chemical structure of a glaze can be represented using the periodic table.
+
+Support: The text describes a system for representing the chemical structure of a glaze, where the oxides are placed in the positions corresponding to their position in the periodic table.
+
+Refutation: The text does not provide specific information on how the chemical structure of a glaze can be represented using the periodic table. However, it is mentioned that the chemical structure of a glaze can be represented in this way.
+
+Confidence score: 0.7
+
+
+Hypothesis 8: The melting point of a glaze can be determined by the position of the oxides in the system for representing the chemical structure of a glaze.
+
+Support: The text describes a system for representing the chemical structure of a glaze, where the melting point regulators are placed on the left.
+
+Refutation: The text does not provide specific information on how the melting point of a glaze can be determined by the position of the oxides in the system for representing the chemical structure of a glaze. However, it is mentioned that the chemical structure of a glaze can be represented in this way.
+
+Confidence score: 0.6
+
+Hypothesis 9: The chemical structure of a glaze can be represented using the periodic table and the system for representing the chemical structure of a glaze.
+
+Support: The text describes a system for representing the chemical structure of a glaze, where the oxides are placed in the positions corresponding to their position in the periodic table.
+
+Refutation: The text does not provide specific information on how the chemical structure of a glaze can be represented using the periodic table and the system for representing the chemical structure of a glaze. However, it is mentioned that the chemical structure of a glaze can be represented in this way.
+
+Confidence score: 0.6
+
+
+Hypothesis 10: The chemical structure of a glaze can be represented using the system for representing the chemical structure of a glaze and the position of the oxides in the periodic table.
+
+Support: The text describes a system for representing the chemical structure of a glaze, where the oxides are placed in the positions corresponding to their position in the periodic table.
+
+Refutation: The text does not provide specific information on how the chemical structure of a glaze can be represented using the system for representing the chemical structure of a glaze and the position of the oxides in the periodic table. However, it is mentioned that the chemical structure of a glaze can be represented in this way.
+
+Confidence score: 0.6""")
+
+    st.write(" ... ")
+
+    
     
     st.write("(wordt vervolgd)")