<![CDATA[This quantitative descriptivecorrelational study explored the connection between senior high school students' cognitive abilities and their argumentation skills within the context of physics learning. Conducted at a public high school in Ketapang, West Kalimantan, the research utilized a multiple-choice test based on Bloom's revised taxonomy (C1C5) to measure cognitive performance. Argumentation skills were evaluated using instruments aligned with Toulmins argument pattern (TAP). The findings revealed a decline in students' cognitive performance as task complexity increased, with scores of 78% for remembering, 61.25% for understanding, 45% for applying, 28.75% for analyzing, and 17.50% for evaluating. Similarly, argumentation skills showed a hierarchical pattern: 80% of students could state claims, 65.71% provided evidence, 51.43% explained phenomena, and only 34.29% were able to construct reasoned solutions. A Pearson correlation analysis indicated a strong, positive relationship between the two variables ( r0.6;p0.05). These results suggest that a higher level of cognitive ability is linked to stronger scientific argumentation, underscoring the necessity of integrating higher-order thinking skills into physics instruction to improve students' reasoning and scientific discourse]]>
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