c. Compute the MSE of the partition x1=131. Note: Round your answer to 4 decimal places. d. Compute the MSE of the partition x2=105. Note: Do not round intermediate calculations. Round your answer to 4 decimal places. MSE e. Which of the following statements is the most accurate? The partition x1=131 creates a lower MSE; therefore, it is the better split for achieving purity. The partition x1=131 creates a higher MSE; therefore, it is the better split for achieving purity. The partition x2=105 creates a higher MSE; therefore, it is the better split for achieving purity. The partition x2=105 creates a lower MSE; therefore, it is the better split for achieving purity. \begin{tabular}{|r|r|r|r|r|} \hlinex1 & x2 & y & \\ \hline 140 & 100 & 143 & \\ \hline 122 & 110 & 225 & \\ \hline 116 & 170 & 131 & \\ \hline 400 & 175 & 194 & \\ \hline & & & \\ \hline & & & \\ \hline & & & \\ \hline & & & \\ \hline & & & \\ \hline \end{tabular} c. Compute the MSE of the partition x1=131. Note: Round your answer to 4 decimal places. d. Compute the MSE of the partition x2=105. Note: Do not round intermediate calculations. Round your answer to 4 decimal places. MSE e. Which of the following statements is the most accurate? The partition x1=131 creates a lower MSE; therefore, it is the better split for achieving purity. The partition x1=131 creates a higher MSE; therefore, it is the better split for achieving purity. The partition x2=105 creates a higher MSE; therefore, it is the better split for achieving purity. The partition x2=105 creates a lower MSE; therefore, it is the better split for achieving purity. \begin{tabular}{|r|r|r|r|r|} \hlinex1 & x2 & y & \\ \hline 140 & 100 & 143 & \\ \hline 122 & 110 & 225 & \\ \hline 116 & 170 & 131 & \\ \hline 400 & 175 & 194 & \\ \hline & & & \\ \hline & & & \\ \hline & & & \\ \hline & & & \\ \hline & & & \\ \hline \end{tabular}