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====Peirce's law====
 
====Peirce's law====
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: ''Main article : [[Peirce's law]]
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: ''Main article'' : [[Peirce's law]]
    
Peirce's law is commonly written in the following form:
 
Peirce's law is commonly written in the following form:
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<center>
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{| align="center" cellpadding="10"
<p><math>((p \Rightarrow q) \Rightarrow p) \Rightarrow p</math></p>
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| <math>((p \Rightarrow q) \Rightarrow p) \Rightarrow p</math>
</center>
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|}
    
The existential graph representation of Peirce's law is shown in Figure&nbsp;12.
 
The existential graph representation of Peirce's law is shown in Figure&nbsp;12.
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{| align="center" border="0" cellpadding="10" cellspacing="0"
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{| align="center" cellpadding="10"
 
| [[Image:PERS_Figure_12.jpg|500px]] || (12)
 
| [[Image:PERS_Figure_12.jpg|500px]] || (12)
 
|}
 
|}
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A graphical proof of Peirce's law is shown in Figure&nbsp;13.
 
A graphical proof of Peirce's law is shown in Figure&nbsp;13.
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{| align="center" border="0" cellpadding="10" cellspacing="0"
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{| align="center" cellpadding="10"
 
| [[Image:PERS_Figure_13.jpg|500px]] || (13)
 
| [[Image:PERS_Figure_13.jpg|500px]] || (13)
 
|}
 
|}
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An illustrious example of a propositional theorem is the ''praeclarum theorema'', the ''admirable'', ''shining'', or ''splendid'' theorem of Leibniz.
 
An illustrious example of a propositional theorem is the ''praeclarum theorema'', the ''admirable'', ''shining'', or ''splendid'' theorem of Leibniz.
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{| align="center" cellpadding="8" width="90%"
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{| align="center" cellpadding="10" width="90%"
 
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<p>If ''a'' is ''b'' and ''d'' is ''c'', then ''ad'' will be ''bc''.</p>
 
<p>If ''a'' is ''b'' and ''d'' is ''c'', then ''ad'' will be ''bc''.</p>
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