𝙁𝙀𝙍𝙏𝙄𝙇𝙄𝙕𝘼𝙏𝙄𝙊𝙉

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𝙁𝙀𝙍𝙏𝙄𝙇𝙄𝙕𝘼𝙏𝙄𝙊𝙉


 

𝘏𝘶𝘮𝘢𝘯 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘪𝘴 𝘵𝘩𝘦 𝘶𝘯𝘪𝘰𝘯 𝘰𝘧 𝘢 𝘩𝘶𝘮𝘢𝘯 𝘦𝘨𝘨 𝘢𝘯𝘥 𝘴𝘱𝘦𝘳𝘮, 𝘶𝘴𝘶𝘢𝘭𝘭𝘺 𝘰𝘤𝘤𝘶𝘳𝘳𝘪𝘯𝘨 𝘪𝘯 𝘵𝘩𝘦 𝘢𝘮𝘱𝘶𝘭𝘭𝘢 𝘰𝘧 𝘵𝘩𝘦 𝘧𝘢𝘭𝘭𝘰𝘱𝘪𝘢𝘯 𝘵𝘶𝘣𝘦. 𝘛𝘩𝘦 𝘳𝘦𝘴𝘶𝘭𝘵 𝘰𝘧 𝘵𝘩𝘪𝘴 𝘶𝘯𝘪𝘰𝘯 𝘪𝘴 𝘵𝘩𝘦 𝘱𝘳𝘰𝘥𝘶𝘤𝘵𝘪𝘰𝘯 𝘰𝘧 𝘢 𝘻𝘺𝘨𝘰𝘵𝘦 𝘤𝘦𝘭𝘭, 𝘰𝘳 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘦𝘥 𝘦𝘨𝘨, 𝘪𝘯𝘪𝘵𝘪𝘢𝘵𝘪𝘯𝘨 𝘱𝘳𝘦𝘯𝘢𝘵𝘢𝘭 𝘥𝘦𝘷𝘦𝘭𝘰𝘱𝘮𝘦𝘯𝘵. 𝘚𝘤𝘪𝘦𝘯𝘵𝘪𝘴𝘵𝘴 𝘥𝘪𝘴𝘤𝘰𝘷𝘦𝘳𝘦𝘥 𝘵𝘩𝘦 𝘥𝘺𝘯𝘢𝘮𝘪𝘤𝘴 𝘰𝘧 𝘩𝘶𝘮𝘢𝘯 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘪𝘯 𝘵𝘩𝘦 𝘯𝘪𝘯𝘦𝘵𝘦𝘦𝘯𝘵𝘩 𝘤𝘦𝘯𝘵𝘶𝘳𝘺. 

 

𝘛𝘩𝘦 𝘱𝘳𝘰𝘤𝘦𝘴𝘴 𝘰𝘧 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘪𝘯𝘷𝘰𝘭𝘷𝘦𝘴 𝘢 𝘴𝘱𝘦𝘳𝘮 𝘧𝘶𝘴𝘪𝘯𝘨 𝘸𝘪𝘵𝘩 𝘢𝘯 𝘰𝘷𝘶𝘮. 𝘛𝘩𝘦 𝘮𝘰𝘴𝘵 𝘤𝘰𝘮𝘮𝘰𝘯 𝘴𝘦𝘲𝘶𝘦𝘯𝘤𝘦 𝘣𝘦𝘨𝘪𝘯𝘴 𝘸𝘪𝘵𝘩 𝘦𝘫𝘢𝘤𝘶𝘭𝘢𝘵𝘪𝘰𝘯 𝘥𝘶𝘳𝘪𝘯𝘨 𝘤𝘰𝘱𝘶𝘭𝘢𝘵𝘪𝘰𝘯, 𝘧𝘰𝘭𝘭𝘰𝘸𝘴 𝘸𝘪𝘵𝘩 𝘰𝘷𝘶𝘭𝘢𝘵𝘪𝘰𝘯, 𝘢𝘯𝘥 𝘧𝘪𝘯𝘪𝘴𝘩𝘦𝘴 𝘸𝘪𝘵𝘩 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯. 𝘝𝘢𝘳𝘪𝘰𝘶𝘴 𝘦𝘹𝘤𝘦𝘱𝘵𝘪𝘰𝘯𝘴 𝘵𝘰 𝘵𝘩𝘪𝘴 𝘴𝘦𝘲𝘶𝘦𝘯𝘤𝘦 𝘢𝘳𝘦 𝘱𝘰𝘴𝘴𝘪𝘣𝘭𝘦, 𝘪𝘯𝘤𝘭𝘶𝘥𝘪𝘯𝘨 𝘢𝘳𝘵𝘪𝘧𝘪𝘤𝘪𝘢𝘭 𝘪𝘯𝘴𝘦𝘮𝘪𝘯𝘢𝘵𝘪𝘰𝘯, 𝘪𝘯 𝘷𝘪𝘵𝘳𝘰 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯, 𝘦𝘹𝘵𝘦𝘳𝘯𝘢𝘭 𝘦𝘫𝘢𝘤𝘶𝘭𝘢𝘵𝘪𝘰𝘯 𝘸𝘪𝘵𝘩𝘰𝘶𝘵 𝘤𝘰𝘱𝘶𝘭𝘢𝘵𝘪𝘰𝘯, 𝘰𝘳 𝘤𝘰𝘱𝘶𝘭𝘢𝘵𝘪𝘰𝘯 𝘴𝘩𝘰𝘳𝘵𝘭𝘺 𝘢𝘧𝘵𝘦𝘳 𝘰𝘷𝘶𝘭𝘢𝘵𝘪𝘰𝘯. 𝘜𝘱𝘰𝘯 𝘦𝘯𝘤𝘰𝘶𝘯𝘵𝘦𝘳𝘪𝘯𝘨 𝘵𝘩𝘦 𝘴𝘦𝘤𝘰𝘯𝘥𝘢𝘳𝘺 𝘰𝘰𝘤𝘺𝘵𝘦, 𝘵𝘩𝘦 𝘢𝘤𝘳𝘰𝘴𝘰𝘮𝘦 𝘰𝘧 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘱𝘳𝘰𝘥𝘶𝘤𝘦𝘴 𝘦𝘯𝘻𝘺𝘮𝘦𝘴 𝘸𝘩𝘪𝘤𝘩 𝘢𝘭𝘭𝘰𝘸 𝘪𝘵 𝘵𝘰 𝘣𝘶𝘳𝘳𝘰𝘸 𝘵𝘩𝘳𝘰𝘶𝘨𝘩 𝘵𝘩𝘦 𝘰𝘶𝘵𝘦𝘳 𝘫𝘦𝘭𝘭𝘺 𝘤𝘰𝘢𝘵 𝘰𝘧 𝘵𝘩𝘦 𝘦𝘨𝘨. 𝘛𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘱𝘭𝘢𝘴𝘮𝘢 𝘵𝘩𝘦𝘯 𝘧𝘶𝘴𝘦𝘴 𝘸𝘪𝘵𝘩 𝘵𝘩𝘦 𝘦𝘨𝘨'𝘴 𝘱𝘭𝘢𝘴𝘮𝘢 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦, 𝘵𝘳𝘪𝘨𝘨𝘦𝘳𝘪𝘯𝘨 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘩𝘦𝘢𝘥 𝘵𝘰 𝘥𝘪𝘴𝘤𝘰𝘯𝘯𝘦𝘤𝘵 𝘧𝘳𝘰𝘮 𝘪𝘵𝘴 𝘧𝘭𝘢𝘨𝘦𝘭𝘭𝘶𝘮 𝘢𝘴 𝘵𝘩𝘦 𝘦𝘨𝘨 𝘵𝘳𝘢𝘷𝘦𝘭𝘴 𝘥𝘰𝘸𝘯 𝘵𝘩𝘦 𝘍𝘢𝘭𝘭𝘰𝘱𝘪𝘢𝘯 𝘵𝘶𝘣𝘦 𝘵𝘰 𝘳𝘦𝘢𝘤𝘩 𝘵𝘩𝘦 𝘶𝘵𝘦𝘳𝘶𝘴. 

 

𝘐𝘯 𝘷𝘪𝘵𝘳𝘰 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 (𝘐𝘝𝘍) 𝘪𝘴 𝘢 𝘱𝘳𝘰𝘤𝘦𝘴𝘴 𝘣𝘺 𝘸𝘩𝘪𝘤𝘩 𝘦𝘨𝘨 𝘤𝘦𝘭𝘭𝘴 𝘢𝘳𝘦 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘦𝘥 𝘣𝘺 𝘴𝘱𝘦𝘳𝘮 𝘰𝘶𝘵𝘴𝘪𝘥𝘦 𝘵𝘩𝘦 𝘸𝘰𝘮𝘣, 𝘪𝘯 𝘷𝘪𝘵𝘳𝘰.

 

𝘼𝙉𝘼𝙏𝙊𝙈𝙔 

 

𝐀𝐦𝐩𝐮𝐥𝐥𝐚 

𝘍𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘰𝘤𝘤𝘶𝘳𝘴 𝘪𝘯 𝘵𝘩𝘦 𝘢𝘮𝘱𝘶𝘭𝘭𝘢, 𝘵𝘩𝘦 𝘴𝘦𝘤𝘵𝘪𝘰𝘯 𝘰𝘧 𝘵𝘩𝘦 𝘰𝘷𝘪𝘥𝘶𝘤𝘵 𝘵𝘩𝘢𝘵 𝘤𝘶𝘳𝘷𝘦𝘴 𝘢𝘳𝘰𝘶𝘯𝘥 𝘵𝘩𝘦 𝘰𝘷𝘢𝘳𝘺. 𝘊𝘢𝘱𝘢𝘤𝘪𝘵𝘢𝘵𝘦𝘥 𝘴𝘱𝘦𝘳𝘮 𝘢𝘳𝘦 𝘢𝘵𝘵𝘳𝘢𝘤𝘵𝘦𝘥 𝘵𝘰 𝘱𝘳𝘰𝘨𝘦𝘴𝘵𝘦𝘳𝘰𝘯𝘦, 𝘸𝘩𝘪𝘤𝘩 𝘪𝘴 𝘴𝘦𝘤𝘳𝘦𝘵𝘦𝘥 𝘧𝘳𝘰𝘮 𝘵𝘩𝘦 𝘤𝘶𝘮𝘶𝘭𝘶𝘴 𝘤𝘦𝘭𝘭𝘴 𝘴𝘶𝘳𝘳𝘰𝘶𝘯𝘥𝘪𝘯𝘨 𝘵𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦. 𝘗𝘳𝘰𝘨𝘦𝘴𝘵𝘦𝘳𝘰𝘯𝘦 𝘣𝘪𝘯𝘥𝘴 𝘵𝘰 𝘵𝘩𝘦 𝘊𝘢𝘵𝘚𝘱𝘦𝘳 𝘳𝘦𝘤𝘦𝘱𝘵𝘰𝘳 𝘰𝘯 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦 𝘢𝘯𝘥 𝘪𝘯𝘤𝘳𝘦𝘢𝘴𝘦𝘴 𝘪𝘯𝘵𝘳𝘢𝘤𝘦𝘭𝘭𝘶𝘭𝘢𝘳 𝘤𝘢𝘭𝘤𝘪𝘶𝘮 𝘭𝘦𝘷𝘦𝘭𝘴, 𝘤𝘢𝘶𝘴𝘪𝘯𝘨 𝘩𝘺𝘱𝘦𝘳𝘢𝘤𝘵𝘪𝘷𝘦 𝘮𝘰𝘵𝘪𝘭𝘪𝘵𝘺. 𝘛𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘸𝘪𝘭𝘭 𝘤𝘰𝘯𝘵𝘪𝘯𝘶𝘦 𝘵𝘰 𝘴𝘸𝘪𝘮 𝘵𝘰𝘸𝘢𝘳𝘥𝘴 𝘩𝘪𝘨𝘩𝘦𝘳 𝘤𝘰𝘯𝘤𝘦𝘯𝘵𝘳𝘢𝘵𝘪𝘰𝘯𝘴 𝘰𝘧 𝘱𝘳𝘰𝘨𝘦𝘴𝘵𝘦𝘳𝘰𝘯𝘦, 𝘦𝘧𝘧𝘦𝘤𝘵𝘪𝘷𝘦𝘭𝘺 𝘨𝘶𝘪𝘥𝘪𝘯𝘨 𝘪𝘵 𝘵𝘰 𝘵𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦. 

 

𝐂𝐨𝐫𝐨𝐧𝐚 𝐑𝐚𝐝𝐢𝐚𝐭𝐚 

𝘛𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘣𝘪𝘯𝘥𝘴 𝘵𝘩𝘳𝘰𝘶𝘨𝘩 𝘵𝘩𝘦 𝘤𝘰𝘳𝘰𝘯𝘢 𝘳𝘢𝘥𝘪𝘢𝘵𝘢, 𝘢 𝘭𝘢𝘺𝘦𝘳 𝘰𝘧 𝘧𝘰𝘭𝘭𝘪𝘤𝘭𝘦 𝘤𝘦𝘭𝘭𝘴 𝘰𝘯 𝘵𝘩𝘦 𝘰𝘶𝘵𝘴𝘪𝘥𝘦 𝘰𝘧 𝘵𝘩𝘦 𝘴𝘦𝘤𝘰𝘯𝘥𝘢𝘳𝘺 𝘰𝘰𝘤𝘺𝘵𝘦. 𝘍𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘰𝘤𝘤𝘶𝘳𝘴 𝘸𝘩𝘦𝘯 𝘵𝘩𝘦 𝘯𝘶𝘤𝘭𝘦𝘶𝘴 𝘰𝘧 𝘣𝘰𝘵𝘩 𝘢 𝘴𝘱𝘦𝘳𝘮 𝘢𝘯𝘥 𝘢𝘯 𝘦𝘨𝘨 𝘧𝘶𝘴𝘦 𝘵𝘰 𝘧𝘰𝘳𝘮 𝘢 𝘥𝘪𝘱𝘭𝘰𝘪𝘥 𝘤𝘦𝘭𝘭, 𝘬𝘯𝘰𝘸𝘯 𝘢𝘴 𝘻𝘺𝘨𝘰𝘵𝘦. 𝘛𝘩𝘦 𝘴𝘶𝘤𝘤𝘦𝘴𝘴𝘧𝘶𝘭 𝘧𝘶𝘴𝘪𝘰𝘯 𝘰𝘧 𝘨𝘢𝘮𝘦𝘵𝘦𝘴 𝘧𝘰𝘳𝘮𝘴 𝘢 𝘯𝘦𝘸 𝘰𝘳𝘨𝘢𝘯𝘪𝘴𝘮. 

 

𝘊𝘰𝘯𝘦 𝘰𝘧 𝘢𝘵𝘵𝘳𝘢𝘤𝘵𝘪𝘰𝘯 𝘢𝘯𝘥 𝘱𝘦𝘳𝘪𝘷𝘪𝘵𝘦𝘭𝘭𝘪𝘯𝘦 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦 

𝘞𝘩𝘦𝘳𝘦 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮𝘢𝘵𝘰𝘻𝘰𝘢𝘯 𝘪𝘴 𝘢𝘣𝘰𝘶𝘵 𝘵𝘰 𝘱𝘪𝘦𝘳𝘤𝘦, 𝘵𝘩𝘦 𝘺𝘰𝘭𝘬 (𝘰𝘰𝘱𝘭𝘢𝘴𝘮) 𝘪𝘴 𝘥𝘳𝘢𝘸𝘯 𝘰𝘶𝘵 𝘪𝘯𝘵𝘰 𝘢 𝘤𝘰𝘯𝘪𝘤𝘢𝘭 𝘦𝘭𝘦𝘷𝘢𝘵𝘪𝘰𝘯, 𝘵𝘦𝘳𝘮𝘦𝘥 𝘵𝘩𝘦 𝘤𝘰𝘯𝘦 𝘰𝘧 𝘢𝘵𝘵𝘳𝘢𝘤𝘵𝘪𝘰𝘯 𝘰𝘳 𝘳𝘦𝘤𝘦𝘱𝘵𝘪𝘰𝘯 𝘤𝘰𝘯𝘦. 𝘖𝘯𝘤𝘦 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮𝘢𝘵𝘰𝘻𝘰𝘰𝘯 𝘩𝘢𝘴 𝘦𝘯𝘵𝘦𝘳𝘦𝘥, 𝘵𝘩𝘦 𝘱𝘦𝘳𝘪𝘱𝘩𝘦𝘳𝘢𝘭 𝘱𝘰𝘳𝘵𝘪𝘰𝘯 𝘰𝘧 𝘵𝘩𝘦 𝘺𝘰𝘭𝘬 𝘤𝘩𝘢𝘯𝘨𝘦𝘴 𝘪𝘯𝘵𝘰 𝘢 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦, 𝘵𝘩𝘦 𝘱𝘦𝘳𝘪𝘷𝘪𝘵𝘦𝘭𝘭𝘪𝘯𝘦 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦, 𝘸𝘩𝘪𝘤𝘩 𝘱𝘳𝘦𝘷𝘦𝘯𝘵𝘴 𝘵𝘩𝘦 𝘱𝘢𝘴𝘴𝘢𝘨𝘦 𝘰𝘧 𝘢𝘥𝘥𝘪𝘵𝘪𝘰𝘯𝘢𝘭 𝘴𝘱𝘦𝘳𝘮𝘢𝘵𝘰𝘻𝘰𝘢. 

 

𝐒𝐩𝐞𝐫𝐦 𝐏𝐫𝐞𝐩𝐚𝐫𝐚𝐭𝐢𝐨𝐧 



𝘈𝘵 𝘵𝘩𝘦 𝘣𝘦𝘨𝘪𝘯𝘯𝘪𝘯𝘨 𝘰𝘧 𝘵𝘩𝘦 𝘱𝘳𝘰𝘤𝘦𝘴𝘴, 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘶𝘯𝘥𝘦𝘳𝘨𝘰𝘦𝘴 𝘢 𝘴𝘦𝘳𝘪𝘦𝘴 𝘰𝘧 𝘤𝘩𝘢𝘯𝘨𝘦𝘴, 𝘢𝘴 𝘧𝘳𝘦𝘴𝘩𝘭𝘺 𝘦𝘫𝘢𝘤𝘶𝘭𝘢𝘵𝘦𝘥 𝘴𝘱𝘦𝘳𝘮 𝘪𝘴 𝘶𝘯𝘢𝘣𝘭𝘦 𝘰𝘳 𝘱𝘰𝘰𝘳𝘭𝘺 𝘢𝘣𝘭𝘦 𝘵𝘰 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘦. 𝘛𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘮𝘶𝘴𝘵 𝘶𝘯𝘥𝘦𝘳𝘨𝘰 𝘤𝘢𝘱𝘢𝘤𝘪𝘵𝘢𝘵𝘪𝘰𝘯 𝘪𝘯 𝘵𝘩𝘦 𝘧𝘦𝘮𝘢𝘭𝘦'𝘴 𝘳𝘦𝘱𝘳𝘰𝘥𝘶𝘤𝘵𝘪𝘷𝘦 𝘵𝘳𝘢𝘤𝘵 𝘰𝘷𝘦𝘳 𝘴𝘦𝘷𝘦𝘳𝘢𝘭 𝘩𝘰𝘶𝘳𝘴, 𝘸𝘩𝘪𝘤𝘩 𝘪𝘯𝘤𝘳𝘦𝘢𝘴𝘦𝘴 𝘪𝘵𝘴 𝘮𝘰𝘵𝘪𝘭𝘪𝘵𝘺 𝘢𝘯𝘥 𝘥𝘦𝘴𝘵𝘢𝘣𝘪𝘭𝘪𝘻𝘦𝘴 𝘪𝘵𝘴 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦, 𝘱𝘳𝘦𝘱𝘢𝘳𝘪𝘯𝘨 𝘪𝘵 𝘧𝘰𝘳 𝘵𝘩𝘦 𝘢𝘤𝘳𝘰𝘴𝘰𝘮𝘦 𝘳𝘦𝘢𝘤𝘵𝘪𝘰𝘯, 𝘵𝘩𝘦 𝘦𝘯𝘻𝘺𝘮𝘢𝘵𝘪𝘤 𝘱𝘦𝘯𝘦𝘵𝘳𝘢𝘵𝘪𝘰𝘯 𝘰𝘧 𝘵𝘩𝘦 𝘦𝘨𝘨'𝘴 𝘵𝘰𝘶𝘨𝘩 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦, 𝘵𝘩𝘦 𝘻𝘰𝘯𝘢 𝘱𝘦𝘭𝘭𝘶𝘤𝘪𝘥𝘢, 𝘸𝘩𝘪𝘤𝘩 𝘴𝘶𝘳𝘳𝘰𝘶𝘯𝘥𝘴 𝘵𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦.

 

𝐙𝐨𝐧𝐚 𝐏𝐞𝐥𝐥𝐮𝐜𝐢𝐝𝐚

𝘈𝘧𝘵𝘦𝘳 𝘣𝘪𝘯𝘥𝘪𝘯𝘨 𝘵𝘰 𝘵𝘩𝘦 𝘤𝘰𝘳𝘰𝘯𝘢 𝘳𝘢𝘥𝘪𝘢𝘵𝘢 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘳𝘦𝘢𝘤𝘩𝘦𝘴 𝘵𝘩𝘦 𝘻𝘰𝘯𝘢 𝘱𝘦𝘭𝘭𝘶𝘤𝘪𝘥𝘢, 𝘸𝘩𝘪𝘤𝘩 𝘪𝘴 𝘢𝘯 𝘦𝘹𝘵𝘳𝘢-𝘤𝘦𝘭𝘭𝘶𝘭𝘢𝘳 𝘮𝘢𝘵𝘳𝘪𝘹 𝘰𝘧 𝘨𝘭𝘺𝘤𝘰𝘱𝘳𝘰𝘵𝘦𝘪𝘯𝘴. 𝘈 𝘴𝘱𝘦𝘤𝘪𝘢𝘭 𝘤𝘰𝘮𝘱𝘭𝘦𝘮𝘦𝘯𝘵𝘢𝘳𝘺 𝘮𝘰𝘭𝘦𝘤𝘶𝘭𝘦 𝘰𝘯 𝘵𝘩𝘦 𝘴𝘶𝘳𝘧𝘢𝘤𝘦 𝘰𝘧 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘩𝘦𝘢𝘥 𝘣𝘪𝘯𝘥𝘴 𝘵𝘰 𝘢 𝘡𝘗3 𝘨𝘭𝘺𝘤𝘰𝘱𝘳𝘰𝘵𝘦𝘪𝘯 𝘪𝘯 𝘵𝘩𝘦 𝘻𝘰𝘯𝘢 𝘱𝘦𝘭𝘭𝘶𝘤𝘪𝘥𝘢. 𝘛𝘩𝘪𝘴 𝘣𝘪𝘯𝘥𝘪𝘯𝘨 𝘵𝘳𝘪𝘨𝘨𝘦𝘳𝘴 𝘵𝘩𝘦 𝘢𝘤𝘳𝘰𝘴𝘰𝘮𝘦 𝘵𝘰 𝘣𝘶𝘳𝘴𝘵, 𝘳𝘦𝘭𝘦𝘢𝘴𝘪𝘯𝘨 𝘦𝘯𝘻𝘺𝘮𝘦𝘴 𝘵𝘩𝘢𝘵 𝘩𝘦𝘭𝘱 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘨𝘦𝘵 𝘵𝘩𝘳𝘰𝘶𝘨𝘩 𝘵𝘩𝘦 𝘻𝘰𝘯𝘢 𝘱𝘦𝘭𝘭𝘶𝘤𝘪𝘥𝘢. 

 

𝘚𝘰𝘮𝘦 𝘴𝘱𝘦𝘳𝘮 𝘤𝘦𝘭𝘭𝘴 𝘤𝘰𝘯𝘴𝘶𝘮𝘦 𝘵𝘩𝘦𝘪𝘳 𝘢𝘤𝘳𝘰𝘴𝘰𝘮𝘦 𝘱𝘳𝘦𝘮𝘢𝘵𝘶𝘳𝘦𝘭𝘺 𝘰𝘯 𝘵𝘩𝘦 𝘴𝘶𝘳𝘧𝘢𝘤𝘦 𝘰𝘧 𝘵𝘩𝘦 𝘦𝘨𝘨 𝘤𝘦𝘭𝘭, 𝘧𝘢𝘤𝘪𝘭𝘪𝘵𝘢𝘵𝘪𝘯𝘨 𝘵𝘩𝘦 𝘱𝘦𝘯𝘦𝘵𝘳𝘢𝘵𝘪𝘰𝘯 𝘣𝘺 𝘰𝘵𝘩𝘦𝘳 𝘴𝘱𝘦𝘳𝘮 𝘤𝘦𝘭𝘭𝘴. 𝘈𝘴 𝘢 𝘱𝘰𝘱𝘶𝘭𝘢𝘵𝘪𝘰𝘯, 𝘴𝘱𝘦𝘳𝘮 𝘤𝘦𝘭𝘭𝘴 𝘩𝘢𝘷𝘦 𝘰𝘯 𝘢𝘷𝘦𝘳𝘢𝘨𝘦 50% 𝘨𝘦𝘯𝘰𝘮𝘦 𝘴𝘪𝘮𝘪𝘭𝘢𝘳𝘪𝘵𝘺 𝘴𝘰 𝘵𝘩𝘦 𝘱𝘳𝘦𝘮𝘢𝘵𝘶𝘳𝘦 𝘢𝘤𝘳𝘰𝘴𝘰𝘮𝘢𝘭 𝘳𝘦𝘢𝘤𝘵𝘪𝘰𝘯𝘴 𝘢𝘪𝘥 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘣𝘺 𝘢 𝘮𝘦𝘮𝘣𝘦𝘳 𝘰𝘧 𝘵𝘩𝘦 𝘴𝘢𝘮𝘦 𝘤𝘰𝘩𝘰𝘳𝘵. 𝘐𝘵 𝘮𝘢𝘺 𝘣𝘦 𝘳𝘦𝘨𝘢𝘳𝘥𝘦𝘥 𝘢𝘴 𝘢 𝘮𝘦𝘤𝘩𝘢𝘯𝘪𝘴𝘮 𝘰𝘧 𝘬𝘪𝘯 𝘴𝘦𝘭𝘦𝘤𝘵𝘪𝘰𝘯. 

 

𝐂𝐨𝐫𝐭𝐢𝐜𝐚𝐥 𝐑𝐞𝐚𝐜𝐭𝐢𝐨𝐧 

𝘖𝘯𝘤𝘦 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘤𝘦𝘭𝘭𝘴 𝘧𝘪𝘯𝘥 𝘵𝘩𝘦𝘪𝘳 𝘸𝘢𝘺 𝘱𝘢𝘴𝘵 𝘵𝘩𝘦 𝘻𝘰𝘯𝘢 𝘱𝘦𝘭𝘭𝘶𝘤𝘪𝘥𝘢, 𝘵𝘩𝘦 𝘤𝘰𝘳𝘵𝘪𝘤𝘢𝘭 𝘳𝘦𝘢𝘤𝘵𝘪𝘰𝘯 𝘰𝘤𝘤𝘶𝘳𝘴. 𝘊𝘰𝘳𝘵𝘪𝘤𝘢𝘭 𝘨𝘳𝘢𝘯𝘶𝘭𝘦𝘴 𝘪𝘯𝘴𝘪𝘥𝘦 𝘵𝘩𝘦 𝘴𝘦𝘤𝘰𝘯𝘥𝘢𝘳𝘺 𝘰𝘰𝘤𝘺𝘵𝘦 𝘧𝘶𝘴𝘦 𝘸𝘪𝘵𝘩 𝘵𝘩𝘦 𝘱𝘭𝘢𝘴𝘮𝘢 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦 𝘰𝘧 𝘵𝘩𝘦 𝘤𝘦𝘭𝘭, 𝘤𝘢𝘶𝘴𝘪𝘯𝘨 𝘦𝘯𝘻𝘺𝘮𝘦𝘴 𝘪𝘯𝘴𝘪𝘥𝘦 𝘵𝘩𝘦𝘴𝘦 𝘨𝘳𝘢𝘯𝘶𝘭𝘦𝘴 𝘵𝘰 𝘣𝘦 𝘦𝘹𝘱𝘦𝘭𝘭𝘦𝘥 𝘣𝘺 𝘦𝘹𝘰𝘤𝘺𝘵𝘰𝘴𝘪𝘴 𝘵𝘰 𝘵𝘩𝘦 𝘻𝘰𝘯𝘢 𝘱𝘦𝘭𝘭𝘶𝘤𝘪𝘥𝘢. 𝘛𝘩𝘪𝘴 𝘪𝘯 𝘵𝘶𝘳𝘯 𝘤𝘢𝘶𝘴𝘦𝘴 𝘵𝘩𝘦 𝘨𝘭𝘺𝘤𝘰-𝘱𝘳𝘰𝘵𝘦𝘪𝘯𝘴 𝘪𝘯 𝘵𝘩𝘦 𝘻𝘰𝘯𝘢 𝘱𝘦𝘭𝘭𝘶𝘤𝘪𝘥𝘢 𝘵𝘰 𝘤𝘳𝘰𝘴𝘴-𝘭𝘪𝘯𝘬 𝘸𝘪𝘵𝘩 𝘦𝘢𝘤𝘩 𝘰𝘵𝘩𝘦𝘳𝘪.𝘦. 𝘵𝘩𝘦 𝘦𝘯𝘻𝘺𝘮𝘦𝘴 𝘤𝘢𝘶𝘴𝘦 𝘵𝘩𝘦 𝘡𝘗2 𝘵𝘰 𝘩𝘺𝘥𝘳𝘰𝘭𝘺𝘴𝘦 𝘪𝘯𝘵𝘰 𝘡𝘗2𝘧𝘮𝘢𝘬𝘪𝘯𝘨 𝘵𝘩𝘦 𝘸𝘩𝘰𝘭𝘦 𝘮𝘢𝘵𝘳𝘪𝘹 𝘩𝘢𝘳𝘥 𝘢𝘯𝘥 𝘪𝘮𝘱𝘦𝘳𝘮𝘦𝘢𝘣𝘭𝘦 𝘵𝘰 𝘴𝘱𝘦𝘳𝘮. 𝘛𝘩𝘪𝘴 𝘱𝘳𝘦𝘷𝘦𝘯𝘵𝘴 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘰𝘧 𝘢𝘯 𝘦𝘨𝘨 𝘣𝘺 𝘮𝘰𝘳𝘦 𝘵𝘩𝘢𝘯 𝘰𝘯𝘦 𝘴𝘱𝘦𝘳𝘮. 𝘛𝘩𝘦 𝘤𝘰𝘳𝘵𝘪𝘤𝘢𝘭 𝘳𝘦𝘢𝘤𝘵𝘪𝘰𝘯 𝘢𝘯𝘥 𝘢𝘤𝘳𝘰𝘴𝘰𝘮𝘦 𝘳𝘦𝘢𝘤𝘵𝘪𝘰𝘯 𝘢𝘳𝘦 𝘣𝘰𝘵𝘩 𝘦𝘴𝘴𝘦𝘯𝘵𝘪𝘢𝘭 𝘵𝘰 𝘦𝘯𝘴𝘶𝘳𝘦 𝘵𝘩𝘢𝘵 𝘰𝘯𝘭𝘺 𝘰𝘯𝘦 𝘴𝘱𝘦𝘳𝘮 𝘸𝘪𝘭𝘭 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘦 𝘢𝘯 𝘦𝘨𝘨.

 

𝐅𝐮𝐬𝐢𝐨𝐧

𝘈𝘧𝘵𝘦𝘳 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘦𝘯𝘵𝘦𝘳𝘴 𝘵𝘩𝘦 𝘤𝘺𝘵𝘰𝘱𝘭𝘢𝘴𝘮 𝘰𝘧 𝘵𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦 (𝘢𝘭𝘴𝘰 𝘤𝘢𝘭𝘭𝘦𝘥 𝘰𝘷𝘰𝘤𝘺𝘵𝘦), 𝘵𝘩𝘦 𝘵𝘢𝘪𝘭 𝘢𝘯𝘥 𝘵𝘩𝘦 𝘰𝘶𝘵𝘦𝘳 𝘤𝘰𝘢𝘵𝘪𝘯𝘨 𝘰𝘧 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘥𝘪𝘴𝘪𝘯𝘵𝘦𝘨𝘳𝘢𝘵𝘦 𝘢𝘯𝘥 𝘵𝘩𝘦 𝘤𝘰𝘳𝘵𝘪𝘤𝘢𝘭 𝘳𝘦𝘢𝘤𝘵𝘪𝘰𝘯 𝘵𝘢𝘬𝘦𝘴 𝘱𝘭𝘢𝘤𝘦, 𝘱𝘳𝘦𝘷𝘦𝘯𝘵𝘪𝘯𝘨 𝘰𝘵𝘩𝘦𝘳 𝘴𝘱𝘦𝘳𝘮 𝘧𝘳𝘰𝘮 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘪𝘯𝘨 𝘵𝘩𝘦 𝘴𝘢𝘮𝘦 𝘦𝘨𝘨. 𝘛𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦 𝘯𝘰𝘸 𝘶𝘯𝘥𝘦𝘳𝘨𝘰𝘦𝘴 𝘪𝘵𝘴 𝘴𝘦𝘤𝘰𝘯𝘥 𝘮𝘦𝘪𝘰𝘵𝘪𝘤 𝘥𝘪𝘷𝘪𝘴𝘪𝘰𝘯 𝘱𝘳𝘰𝘥𝘶𝘤𝘪𝘯𝘨 𝘵𝘩𝘦 𝘩𝘢𝘱𝘭𝘰𝘪𝘥 𝘰𝘷𝘶𝘮 𝘢𝘯𝘥 𝘳𝘦𝘭𝘦𝘢𝘴𝘪𝘯𝘨 𝘢 𝘱𝘰𝘭𝘢𝘳 𝘣𝘰𝘥𝘺. 𝘛𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘯𝘶𝘤𝘭𝘦𝘶𝘴 𝘵𝘩𝘦𝘯 𝘧𝘶𝘴𝘦𝘴 𝘸𝘪𝘵𝘩 𝘵𝘩𝘦 𝘰𝘷𝘶𝘮, 𝘦𝘯𝘢𝘣𝘭𝘪𝘯𝘨 𝘧𝘶𝘴𝘪𝘰𝘯 𝘰𝘧 𝘵𝘩𝘦𝘪𝘳 𝘨𝘦𝘯𝘦𝘵𝘪𝘤 𝘮𝘢𝘵𝘦𝘳𝘪𝘢𝘭. 

 

𝘞𝘩𝘦𝘯 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘦𝘯𝘵𝘦𝘳𝘴 𝘵𝘩𝘦 𝘷𝘪𝘵𝘦𝘭𝘭𝘪𝘯𝘦 𝘴𝘱𝘢𝘤𝘦, 𝘳𝘦𝘤𝘦𝘱𝘵𝘰𝘳𝘴 𝘰𝘯 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘩𝘦𝘢𝘥 𝘤𝘢𝘭𝘭𝘦𝘥 𝘐𝘻𝘶𝘮𝘰1 𝘣𝘪𝘯𝘥 𝘵𝘰 𝘑𝘶𝘯𝘰 𝘰𝘯 𝘵𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦.𝘖𝘯𝘤𝘦 𝘪𝘵𝘴 𝘣𝘰𝘶𝘯𝘥 2 𝘣𝘭𝘰𝘤𝘬𝘴 𝘵𝘰 𝘱𝘰𝘭𝘺𝘴𝘱𝘦𝘳𝘮𝘺 𝘵𝘩𝘦𝘯 𝘰𝘤𝘤𝘶𝘳. 𝘈𝘧𝘵𝘦𝘳 𝘢𝘱𝘱𝘳𝘰𝘹𝘪𝘮𝘢𝘵𝘦𝘭𝘺 40 𝘮𝘪𝘯𝘶𝘵𝘦𝘴, 𝘵𝘩𝘦 𝘰𝘵𝘩𝘦𝘳 𝘑𝘶𝘯𝘰 𝘳𝘦𝘤𝘦𝘱𝘵𝘰𝘳𝘴 𝘰𝘯 𝘵𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦 𝘢𝘳𝘦 𝘭𝘰𝘴𝘵 𝘧𝘳𝘰𝘮 𝘵𝘩𝘦 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦, 𝘤𝘢𝘶𝘴𝘪𝘯𝘨 𝘪𝘵 𝘵𝘰 𝘯𝘰 𝘭𝘰𝘯𝘨𝘦𝘳 𝘣𝘦 𝘧𝘶𝘴𝘰𝘨𝘦𝘯𝘪𝘤. 𝘈𝘥𝘥𝘪𝘵𝘪𝘰𝘯𝘢𝘭𝘭𝘺, 𝘵𝘩𝘦 𝘤𝘰𝘳𝘵𝘪𝘤𝘢𝘭 𝘳𝘦𝘢𝘤𝘵𝘪𝘰𝘯 𝘸𝘪𝘭𝘭 𝘩𝘢𝘱𝘱𝘦𝘯 𝘸𝘩𝘪𝘤𝘩 𝘪𝘴 𝘤𝘢𝘶𝘴𝘦𝘥 𝘣𝘺 𝘰𝘷𝘢𝘴𝘵𝘢𝘤𝘪𝘯 𝘣𝘪𝘯𝘥𝘪𝘯𝘨 𝘢𝘯𝘥 𝘤𝘭𝘦𝘢𝘷𝘪𝘯𝘨 𝘡𝘗2 𝘳𝘦𝘤𝘦𝘱𝘵𝘰𝘳𝘴 𝘰𝘯 𝘵𝘩𝘦 𝘻𝘰𝘯𝘢 𝘱𝘦𝘭𝘭𝘶𝘤𝘪𝘥𝘢. 𝘛𝘩𝘦𝘴𝘦 𝘵𝘸𝘰 𝘣𝘭𝘰𝘤𝘬𝘴 𝘰𝘧 𝘱𝘰𝘭𝘺𝘴𝘱𝘦𝘳𝘮𝘺 𝘢𝘳𝘦 𝘸𝘩𝘢𝘵 𝘱𝘳𝘦𝘷𝘦𝘯𝘵 𝘵𝘩𝘦 𝘻𝘺𝘨𝘰𝘵𝘦 𝘧𝘳𝘰𝘮 𝘩𝘢𝘷𝘪𝘯𝘨 𝘵𝘰𝘰 𝘮𝘶𝘤𝘩 𝘋𝘕𝘈.

 

𝐂𝐞𝐥𝐥 𝐌𝐞𝐦𝐛𝐫𝐚𝐧𝐞𝐬

𝘛𝘩𝘦 𝘧𝘶𝘴𝘪𝘰𝘯 𝘰𝘧 𝘤𝘦𝘭𝘭 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦𝘴 𝘰𝘧 𝘵𝘩𝘦 𝘴𝘦𝘤𝘰𝘯𝘥𝘢𝘳𝘺 𝘰𝘰𝘤𝘺𝘵𝘦 𝘢𝘯𝘥 𝘴𝘱𝘦𝘳𝘮 𝘵𝘢𝘬𝘦𝘴 𝘱𝘭𝘢𝘤𝘦. 

 

𝐓𝐫𝐚𝐧𝐬𝐟𝐨𝐫𝐦𝐚𝐭𝐢𝐨𝐧𝐬

𝘐𝘯 𝘱𝘳𝘦𝘱𝘢𝘳𝘢𝘵𝘪𝘰𝘯 𝘧𝘰𝘳 𝘵𝘩𝘦 𝘧𝘶𝘴𝘪𝘰𝘯 𝘰𝘧 𝘵𝘩𝘦𝘪𝘳 𝘨𝘦𝘯𝘦𝘵𝘪𝘤 𝘮𝘢𝘵𝘦𝘳𝘪𝘢𝘭 𝘣𝘰𝘵𝘩 𝘵𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦 𝘢𝘯𝘥 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘶𝘯𝘥𝘦𝘳𝘨𝘰 𝘵𝘳𝘢𝘯𝘴𝘧𝘰𝘳𝘮𝘢𝘵𝘪𝘰𝘯𝘴 𝘢𝘴 𝘢 𝘳𝘦𝘢𝘤𝘵𝘪𝘰𝘯 𝘵𝘰 𝘵𝘩𝘦 𝘧𝘶𝘴𝘪𝘰𝘯 𝘰𝘧 𝘤𝘦𝘭𝘭 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦𝘴. 

 

𝘛𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦 𝘤𝘰𝘮𝘱𝘭𝘦𝘵𝘦𝘴 𝘪𝘵𝘴 𝘴𝘦𝘤𝘰𝘯𝘥 𝘮𝘦𝘪𝘰𝘵𝘪𝘤 𝘥𝘪𝘷𝘪𝘴𝘪𝘰𝘯. 𝘛𝘩𝘪𝘴 𝘳𝘦𝘴𝘶𝘭𝘵𝘴 𝘪𝘯 𝘢 𝘮𝘢𝘵𝘶𝘳𝘦 𝘰𝘷𝘶𝘮. 𝘛𝘩𝘦 𝘯𝘶𝘤𝘭𝘦𝘶𝘴 𝘰𝘧 𝘵𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦 𝘪𝘴 𝘤𝘢𝘭𝘭𝘦𝘥 𝘢 𝘱𝘳𝘰𝘯𝘶𝘤𝘭𝘦𝘶𝘴 𝘪𝘯 𝘵𝘩𝘪𝘴 𝘱𝘳𝘰𝘤𝘦𝘴𝘴, 𝘵𝘰 𝘥𝘪𝘴𝘵𝘪𝘯𝘨𝘶𝘪𝘴𝘩 𝘪𝘵 𝘧𝘳𝘰𝘮 𝘵𝘩𝘦 𝘯𝘶𝘤𝘭𝘦𝘪 𝘵𝘩𝘢𝘵 𝘢𝘳𝘦 𝘵𝘩𝘦 𝘳𝘦𝘴𝘶𝘭𝘵 𝘰𝘧 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯. 

 

𝘛𝘩𝘦 𝘴𝘱𝘦𝘳𝘮'𝘴 𝘵𝘢𝘪𝘭 𝘢𝘯𝘥 𝘮𝘪𝘵𝘰𝘤𝘩𝘰𝘯𝘥𝘳𝘪𝘢 𝘥𝘦𝘨𝘦𝘯𝘦𝘳𝘢𝘵𝘦 𝘸𝘪𝘵𝘩 𝘵𝘩𝘦 𝘧𝘰𝘳𝘮𝘢𝘵𝘪𝘰𝘯 𝘰𝘧 𝘵𝘩𝘦 𝘮𝘢𝘭𝘦 𝘱𝘳𝘰𝘯𝘶𝘤𝘭𝘦𝘶𝘴. 𝘛𝘩𝘪𝘴 𝘪𝘴 𝘸𝘩𝘺 𝘢𝘭𝘭 𝘮𝘪𝘵𝘰𝘤𝘩𝘰𝘯𝘥𝘳𝘪𝘢 𝘪𝘯 𝘩𝘶𝘮𝘢𝘯𝘴 𝘢𝘳𝘦 𝘰𝘧 𝘮𝘢𝘵𝘦𝘳𝘯𝘢𝘭 𝘰𝘳𝘪𝘨𝘪𝘯. 𝘚𝘵𝘪𝘭𝘭, 𝘢 𝘤𝘰𝘯𝘴𝘪𝘥𝘦𝘳𝘢𝘣𝘭𝘦 𝘢𝘮𝘰𝘶𝘯𝘵 𝘰𝘧 𝘙𝘕𝘈 𝘧𝘳𝘰𝘮 𝘵𝘩𝘦 𝘴𝘱𝘦𝘳𝘮 𝘪𝘴 𝘥𝘦𝘭𝘪𝘷𝘦𝘳𝘦𝘥 𝘵𝘰 𝘵𝘩𝘦 𝘳𝘦𝘴𝘶𝘭𝘵𝘪𝘯𝘨 𝘦𝘮𝘣𝘳𝘺𝘰 𝘢𝘯𝘥 𝘭𝘪𝘬𝘦𝘭𝘺 𝘪𝘯𝘧𝘭𝘶𝘦𝘯𝘤𝘦𝘴 𝘦𝘮𝘣𝘳𝘺𝘰 𝘥𝘦𝘷𝘦𝘭𝘰𝘱𝘮𝘦𝘯𝘵 𝘢𝘯𝘥 𝘵𝘩𝘦 𝘱𝘩𝘦𝘯𝘰𝘵𝘺𝘱𝘦 𝘰𝘧 𝘵𝘩𝘦 𝘰𝘧𝘧𝘴𝘱𝘳𝘪𝘯𝘨.

 

𝐑𝐞𝐩𝐥𝐢𝐜𝐚𝐭𝐢𝐨𝐧

𝘛𝘩𝘦 𝘱𝘳𝘰𝘯𝘶𝘤𝘭𝘦𝘪 𝘮𝘪𝘨𝘳𝘢𝘵𝘦 𝘵𝘰𝘸𝘢𝘳𝘥 𝘵𝘩𝘦 𝘤𝘦𝘯𝘵𝘦𝘳 𝘰𝘧 𝘵𝘩𝘦 𝘰𝘰𝘤𝘺𝘵𝘦, 𝘳𝘢𝘱𝘪𝘥𝘭𝘺 𝘳𝘦𝘱𝘭𝘪𝘤𝘢𝘵𝘪𝘯𝘨 𝘵𝘩𝘦𝘪𝘳 𝘋𝘕𝘈 𝘢𝘴 𝘵𝘩𝘦𝘺 𝘥𝘰 𝘴𝘰 𝘵𝘰 𝘱𝘳𝘦𝘱𝘢𝘳𝘦 𝘵𝘩𝘦 𝘻𝘺𝘨𝘰𝘵𝘦 𝘧𝘰𝘳 𝘪𝘵𝘴 𝘧𝘪𝘳𝘴𝘵 𝘮𝘪𝘵𝘰𝘵𝘪𝘤 𝘥𝘪𝘷𝘪𝘴𝘪𝘰𝘯.

 

𝐌𝐢𝐭𝐨𝐬𝐢𝐬

𝘜𝘴𝘶𝘢𝘭𝘭𝘺 23 𝘤𝘩𝘳𝘰𝘮𝘰𝘴𝘰𝘮𝘦𝘴 𝘧𝘳𝘰𝘮 𝘴𝘱𝘦𝘳𝘮𝘢𝘵𝘰𝘻𝘰𝘰𝘯 𝘢𝘯𝘥 23 𝘤𝘩𝘳𝘰𝘮𝘰𝘴𝘰𝘮𝘦𝘴 𝘧𝘳𝘰𝘮 𝘦𝘨𝘨 𝘤𝘦𝘭𝘭 𝘧𝘶𝘴𝘦 (𝘩𝘢𝘭𝘧 𝘰𝘧 𝘴𝘱𝘦𝘳𝘮𝘢𝘵𝘰𝘻𝘰𝘰𝘯𝘴 𝘤𝘢𝘳𝘳𝘺 𝘟 𝘤𝘩𝘳𝘰𝘮𝘰𝘴𝘰𝘮𝘦 𝘢𝘯𝘥 𝘵𝘩𝘦 𝘰𝘵𝘩𝘦𝘳 𝘩𝘢𝘭𝘧 𝘠 𝘤𝘩𝘳𝘰𝘮𝘰𝘴𝘰𝘮𝘦). 𝘛𝘩𝘦𝘪𝘳 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦𝘴 𝘥𝘪𝘴𝘴𝘰𝘭𝘷𝘦, 𝘭𝘦𝘢𝘷𝘪𝘯𝘨 𝘯𝘰 𝘣𝘢𝘳𝘳𝘪𝘦𝘳𝘴 𝘣𝘦𝘵𝘸𝘦𝘦𝘯 𝘵𝘩𝘦 𝘮𝘢𝘭𝘦 𝘢𝘯𝘥 𝘧𝘦𝘮𝘢𝘭𝘦 𝘤𝘩𝘳𝘰𝘮𝘰𝘴𝘰𝘮𝘦𝘴. 𝘋𝘶𝘳𝘪𝘯𝘨 𝘵𝘩𝘪𝘴 𝘥𝘪𝘴𝘴𝘰𝘭𝘶𝘵𝘪𝘰𝘯, 𝘢 𝘮𝘪𝘵𝘰𝘵𝘪𝘤 𝘴𝘱𝘪𝘯𝘥𝘭𝘦 𝘧𝘰𝘳𝘮𝘴 𝘣𝘦𝘵𝘸𝘦𝘦𝘯 𝘵𝘩𝘦𝘮. 𝘛𝘩𝘦 𝘴𝘱𝘪𝘯𝘥𝘭𝘦 𝘤𝘢𝘱𝘵𝘶𝘳𝘦𝘴 𝘵𝘩𝘦 𝘤𝘩𝘳𝘰𝘮𝘰𝘴𝘰𝘮𝘦𝘴 𝘣𝘦𝘧𝘰𝘳𝘦 𝘵𝘩𝘦𝘺 𝘥𝘪𝘴𝘱𝘦𝘳𝘴𝘦 𝘪𝘯 𝘵𝘩𝘦 𝘦𝘨𝘨 𝘤𝘺𝘵𝘰𝘱𝘭𝘢𝘴𝘮. 𝘜𝘱𝘰𝘯 𝘴𝘶𝘣𝘴𝘦𝘲𝘶𝘦𝘯𝘵𝘭𝘺 𝘶𝘯𝘥𝘦𝘳𝘨𝘰𝘪𝘯𝘨 𝘮𝘪𝘵𝘰𝘴𝘪𝘴 (𝘸𝘩𝘪𝘤𝘩 𝘪𝘯𝘤𝘭𝘶𝘥𝘦𝘴 𝘱𝘶𝘭𝘭𝘪𝘯𝘨 𝘰𝘧 𝘤𝘩𝘳𝘰𝘮𝘢𝘵𝘪𝘥𝘴 𝘵𝘰𝘸𝘢𝘳𝘥𝘴 𝘤𝘦𝘯𝘵𝘳𝘪𝘰𝘭𝘦𝘴 𝘪𝘯 𝘢𝘯𝘢𝘱𝘩𝘢𝘴𝘦) 𝘵𝘩𝘦 𝘤𝘦𝘭𝘭 𝘨𝘢𝘵𝘩𝘦𝘳𝘴 𝘨𝘦𝘯𝘦𝘵𝘪𝘤 𝘮𝘢𝘵𝘦𝘳𝘪𝘢𝘭 𝘧𝘳𝘰𝘮 𝘵𝘩𝘦 𝘮𝘢𝘭𝘦 𝘢𝘯𝘥 𝘧𝘦𝘮𝘢𝘭𝘦 𝘵𝘰𝘨𝘦𝘵𝘩𝘦𝘳. 𝘛𝘩𝘶𝘴, 𝘵𝘩𝘦 𝘧𝘪𝘳𝘴𝘵 𝘮𝘪𝘵𝘰𝘴𝘪𝘴 𝘰𝘧 𝘵𝘩𝘦 𝘶𝘯𝘪𝘰𝘯 𝘰𝘧 𝘴𝘱𝘦𝘳𝘮 𝘢𝘯𝘥 𝘰𝘰𝘤𝘺𝘵𝘦 𝘪𝘴 𝘵𝘩𝘦 𝘢𝘤𝘵𝘶𝘢𝘭 𝘧𝘶𝘴𝘪𝘰𝘯 𝘰𝘧 𝘵𝘩𝘦𝘪𝘳 𝘤𝘩𝘳𝘰𝘮𝘰𝘴𝘰𝘮𝘦𝘴.

𝘌𝘢𝘤𝘩 𝘰𝘧 𝘵𝘩𝘦 𝘵𝘸𝘰 𝘥𝘢𝘶𝘨𝘩𝘵𝘦𝘳 𝘤𝘦𝘭𝘭𝘴 𝘳𝘦𝘴𝘶𝘭𝘵𝘪𝘯𝘨 𝘧𝘳𝘰𝘮 𝘵𝘩𝘢𝘵 𝘮𝘪𝘵𝘰𝘴𝘪𝘴 𝘩𝘢𝘴 𝘰𝘯𝘦 𝘳𝘦𝘱𝘭𝘪𝘤𝘢 𝘰𝘧 𝘦𝘢𝘤𝘩 𝘤𝘩𝘳𝘰𝘮𝘢𝘵𝘪𝘥 𝘵𝘩𝘢𝘵 𝘸𝘢𝘴 𝘳𝘦𝘱𝘭𝘪𝘤𝘢𝘵𝘦𝘥 𝘪𝘯 𝘵𝘩𝘦 𝘱𝘳𝘦𝘷𝘪𝘰𝘶𝘴 𝘴𝘵𝘢𝘨𝘦. 𝘛𝘩𝘶𝘴, 𝘵𝘩𝘦𝘺 𝘢𝘳𝘦 𝘨𝘦𝘯𝘦𝘵𝘪𝘤𝘢𝘭𝘭𝘺 𝘪𝘥𝘦𝘯𝘵𝘪𝘤𝘢𝘭.

 

𝙁𝙚𝙧𝙩𝙞𝙡𝙞𝙯𝙖𝙩𝙞𝙤𝙣 𝘼𝙜𝙚

 

𝘍𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘪𝘴 𝘵𝘩𝘦 𝘦𝘷𝘦𝘯𝘵 𝘮𝘰𝘴𝘵 𝘤𝘰𝘮𝘮𝘰𝘯𝘭𝘺 𝘶𝘴𝘦𝘥 𝘵𝘰 𝘮𝘢𝘳𝘬 𝘵𝘩𝘦 𝘻𝘦𝘳𝘰 𝘱𝘰𝘪𝘯𝘵 𝘪𝘯 𝘥𝘦𝘴𝘤𝘳𝘪𝘱𝘵𝘪𝘰𝘯𝘴 𝘰𝘧 𝘱𝘳𝘦𝘯𝘢𝘵𝘢𝘭 𝘥𝘦𝘷𝘦𝘭𝘰𝘱𝘮𝘦𝘯𝘵 𝘰𝘧 𝘵𝘩𝘦 𝘦𝘮𝘣𝘳𝘺𝘰 𝘰𝘳 𝘧𝘦𝘵𝘶𝘴. 𝘛𝘩𝘦 𝘳𝘦𝘴𝘶𝘭𝘵𝘢𝘯𝘵 𝘢𝘨𝘦 𝘪𝘴 𝘬𝘯𝘰𝘸𝘯 𝘢𝘴 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘢𝘨𝘦, 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯𝘢𝘭 𝘢𝘨𝘦, 𝘤𝘰𝘯𝘤𝘦𝘱𝘵𝘪𝘰𝘯𝘢𝘭 𝘢𝘨𝘦, 𝘦𝘮𝘣𝘳𝘺𝘰𝘯𝘪𝘤 𝘢𝘨𝘦, 𝘧𝘦𝘵𝘢𝘭 𝘢𝘨𝘦 𝘰𝘳 (𝘪𝘯𝘵𝘳𝘢𝘶𝘵𝘦𝘳𝘪𝘯𝘦) 𝘥𝘦𝘷𝘦𝘭𝘰𝘱𝘮𝘦𝘯𝘵𝘢𝘭 (𝘐𝘜𝘋)𝘢𝘨𝘦. 

 

𝘎𝘦𝘴𝘵𝘢𝘵𝘪𝘰𝘯𝘢𝘭 𝘢𝘨𝘦, 𝘪𝘯 𝘤𝘰𝘯𝘵𝘳𝘢𝘴𝘵, 𝘵𝘢𝘬𝘦𝘴 𝘵𝘩𝘦 𝘣𝘦𝘨𝘪𝘯𝘯𝘪𝘯𝘨 𝘰𝘧 𝘵𝘩𝘦 𝘭𝘢𝘴𝘵 𝘮𝘦𝘯𝘴𝘵𝘳𝘶𝘢𝘭 𝘱𝘦𝘳𝘪𝘰𝘥 (𝘓𝘔𝘗) 𝘢𝘴 𝘵𝘩𝘦 𝘻𝘦𝘳𝘰 𝘱𝘰𝘪𝘯𝘵. 𝘉𝘺 𝘤𝘰𝘯𝘷𝘦𝘯𝘵𝘪𝘰𝘯, 𝘨𝘦𝘴𝘵𝘢𝘵𝘪𝘰𝘯𝘢𝘭 𝘢𝘨𝘦 𝘪𝘴 𝘤𝘢𝘭𝘤𝘶𝘭𝘢𝘵𝘦𝘥 𝘣𝘺 𝘢𝘥𝘥𝘪𝘯𝘨 14 𝘥𝘢𝘺𝘴 𝘵𝘰 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘢𝘨𝘦 𝘢𝘯𝘥 𝘷𝘪𝘤𝘦 𝘷𝘦𝘳𝘴𝘢. 𝘐𝘯 𝘧𝘢𝘤𝘵, 𝘩𝘰𝘸𝘦𝘷𝘦𝘳, 𝘧𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘶𝘴𝘶𝘢𝘭𝘭𝘺 𝘰𝘤𝘤𝘶𝘳𝘴 𝘸𝘪𝘵𝘩𝘪𝘯 𝘢 𝘥𝘢𝘺 𝘰𝘧 𝘰𝘷𝘶𝘭𝘢𝘵𝘪𝘰𝘯, 𝘸𝘩𝘪𝘤𝘩, 𝘪𝘯 𝘵𝘶𝘳𝘯, 𝘰𝘤𝘤𝘶𝘳𝘴 𝘰𝘯 𝘢𝘷𝘦𝘳𝘢𝘨𝘦 14.6 𝘥𝘢𝘺𝘴 𝘢𝘧𝘵𝘦𝘳 𝘵𝘩𝘦 𝘣𝘦𝘨𝘪𝘯𝘯𝘪𝘯𝘨 𝘰𝘧 𝘵𝘩𝘦 𝘱𝘳𝘦𝘤𝘦𝘥𝘪𝘯𝘨 𝘮𝘦𝘯𝘴𝘵𝘳𝘶𝘢𝘵𝘪𝘰𝘯 (𝘓𝘔𝘗).𝘛𝘩𝘦𝘳𝘦 𝘪𝘴 𝘢𝘭𝘴𝘰 𝘤𝘰𝘯𝘴𝘪𝘥𝘦𝘳𝘢𝘣𝘭𝘦 𝘷𝘢𝘳𝘪𝘢𝘣𝘪𝘭𝘪𝘵𝘺 𝘪𝘯 𝘵𝘩𝘪𝘴 𝘪𝘯𝘵𝘦𝘳𝘷𝘢𝘭, 𝘸𝘪𝘵𝘩 𝘢 95% 𝘱𝘳𝘦𝘥𝘪𝘤𝘵𝘪𝘰𝘯 𝘪𝘯𝘵𝘦𝘳𝘷𝘢𝘭 𝘰𝘧 𝘵𝘩𝘦 𝘰𝘷𝘶𝘭𝘢𝘵𝘪𝘰𝘯 𝘰𝘧 9 𝘵𝘰 20 𝘥𝘢𝘺𝘴 𝘢𝘧𝘵𝘦𝘳 𝘮𝘦𝘯𝘴𝘵𝘳𝘶𝘢𝘵𝘪𝘰𝘯 𝘦𝘷𝘦𝘯 𝘧𝘰𝘳 𝘢𝘯 𝘢𝘷𝘦𝘳𝘢𝘨𝘦 𝘸𝘰𝘮𝘢𝘯 𝘸𝘩𝘰 𝘩𝘢𝘴 𝘢 𝘮𝘦𝘢𝘯 𝘓𝘔𝘗-𝘵𝘰-𝘰𝘷𝘶𝘭𝘢𝘵𝘪𝘰𝘯 𝘵𝘪𝘮𝘦 𝘰𝘧 14.6. 𝘐𝘯 𝘢 𝘳𝘦𝘧𝘦𝘳𝘦𝘯𝘤𝘦 𝘨𝘳𝘰𝘶𝘱 𝘳𝘦𝘱𝘳𝘦𝘴𝘦𝘯𝘵𝘪𝘯𝘨 𝘢𝘭𝘭 𝘸𝘰𝘮𝘦𝘯, 𝘵𝘩𝘦 95% 𝘱𝘳𝘦𝘥𝘪𝘤𝘵𝘪𝘰𝘯 𝘪𝘯𝘵𝘦𝘳𝘷𝘢𝘭 𝘰𝘧 𝘵𝘩𝘦 𝘓𝘔𝘗-𝘵𝘰-𝘰𝘷𝘶𝘭𝘢𝘵𝘪𝘰𝘯 𝘪𝘴 8.2 𝘵𝘰 20.5 𝘥𝘢𝘺𝘴. 

 

𝘛𝘩𝘦 𝘢𝘷𝘦𝘳𝘢𝘨𝘦 𝘵𝘪𝘮𝘦 𝘵𝘰 𝘣𝘪𝘳𝘵𝘩 𝘩𝘢𝘴 𝘣𝘦𝘦𝘯 𝘦𝘴𝘵𝘪𝘮𝘢𝘵𝘦𝘥 𝘵𝘰 𝘣𝘦 268 𝘥𝘢𝘺𝘴 (38 𝘸𝘦𝘦𝘬𝘴 𝘢𝘯𝘥 𝘵𝘸𝘰 𝘥𝘢𝘺𝘴) 𝘧𝘳𝘰𝘮 𝘰𝘷𝘶𝘭𝘢𝘵𝘪𝘰𝘯, 𝘸𝘪𝘵𝘩 𝘢 𝘴𝘵𝘢𝘯𝘥𝘢𝘳𝘥 𝘥𝘦𝘷𝘪𝘢𝘵𝘪𝘰𝘯 𝘰𝘧 10 𝘥𝘢𝘺𝘴 𝘰𝘳 𝘤𝘰𝘦𝘧𝘧𝘪𝘤𝘪𝘦𝘯𝘵 𝘰𝘧 𝘷𝘢𝘳𝘪𝘢𝘵𝘪𝘰𝘯 𝘰𝘧 3.7%. 

 

𝘍𝘦𝘳𝘵𝘪𝘭𝘪𝘻𝘢𝘵𝘪𝘰𝘯 𝘢𝘨𝘦 𝘪𝘴 𝘴𝘰𝘮𝘦𝘵𝘪𝘮𝘦𝘴 𝘶𝘴𝘦𝘥 𝘱𝘰𝘴𝘵𝘯𝘢𝘵𝘢𝘭𝘭𝘺 (𝘢𝘧𝘵𝘦𝘳 𝘣𝘪𝘳𝘵𝘩) 𝘢𝘴 𝘸𝘦𝘭𝘭 𝘵𝘰 𝘦𝘴𝘵𝘪𝘮𝘢𝘵𝘦 𝘷𝘢𝘳𝘪𝘰𝘶𝘴 𝘳𝘪𝘴𝘬 𝘧𝘢𝘤𝘵𝘰𝘳𝘴. 𝘍𝘰𝘳 𝘦𝘹𝘢𝘮𝘱𝘭𝘦, 𝘪𝘵 𝘪𝘴 𝘢 𝘣𝘦𝘵𝘵𝘦𝘳 𝘱𝘳𝘦𝘥𝘪𝘤𝘵𝘰𝘳 𝘵𝘩𝘢𝘯 𝘱𝘰𝘴𝘵𝘯𝘢𝘵𝘢𝘭 𝘢𝘨𝘦 𝘧𝘰𝘳 𝘳𝘪𝘴𝘬 𝘰𝘧 𝘪𝘯𝘵𝘳𝘢𝘷𝘦𝘯𝘵𝘳𝘪𝘤𝘶𝘭𝘢𝘳 𝘩𝘦𝘮𝘰𝘳𝘳𝘩𝘢𝘨𝘦 𝘪𝘯 𝘱𝘳𝘦𝘮𝘢𝘵𝘶𝘳𝘦 𝘣𝘢𝘣𝘪𝘦𝘴 𝘵𝘳𝘦𝘢𝘵𝘦𝘥 𝘸𝘪𝘵𝘩 𝘦𝘹𝘵𝘳𝘢𝘤𝘰𝘳𝘱𝘰𝘳𝘦𝘢𝘭 𝘮𝘦𝘮𝘣𝘳𝘢𝘯𝘦 𝘰𝘹𝘺𝘨𝘦𝘯𝘢𝘵𝘪𝘰𝘯.

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