设随机变量X和Y相互独立，下表列出了二维随机变量（X，Y）联合分布律及关于X和Y的边缘分布律中的部分数值.试将其余数值填入表中的空白处.Y y1 y2 y3 X={X)_(i)} =(p)_(i)-|||-x-|||-x1 1/8-|||-x2 1/8-|||-P(Y Y=yj)=pj 1/6 1

因 P\\{Y=y_{j}\\}=P_{.j}=\\sum_{i=1}^{2}P\\{X=x_{i},Y=y_{j}\\} ,故 P\\{Y=y_{1}\\}=P\\{X=x_{1},Y=y_{1}\\}+P\\{X=x_{2},Y=y_{1}\\} ,从而 P\\{X=x_{1},Y=y_{1}\\}=\\frac{1}{6}-\\frac{1}{8}=\\frac{1}{24}. 而X与Y独立,故 P\\{X=x_{i}\\}\\cdot P\\{Y=y_{j}\\}=P\\{X=x_{i},Y=y_{i}\\} ,从而 P\\{X=x_{1}\\}\\times\\frac{1}{6}=P\\{X=x_{1},Y=y_{1}\\}=\\frac{1}{24}. 即: P\\{X=x_{1}\\}=\\frac{1}{24}/\\frac{1}{6}=\\frac{1}{4}. 又 P\\{X=x_{1}\\}=P\\{X=x_{1},Y=y_{1}\\}+P\\{X=x_{1},Y=y_{2}\\}+P\\{X=x_{1},Y=y_{ 即 \\frac{1}{4}=\\frac{1}{24}+\\frac{1}{8}+P\\{X=x_{1}Y=y_{3}\\} ,从而 P\\{X=x_{1},Y=y_{3}\\}=\\frac{1}{12}. 同理 P\\{Y=y_{2}\\}=\\frac{1}{2},P\\{X=x_{2},Y=y_{2}\\}=\\frac{3}{8} 又 \\sum_{j=1}^{3}P\\{Y=y_{j}\\}=1 ,故 P\\{Y=y_{3}\\}=1-\\frac{1}{6}-\\frac{1}{2}=\\frac{1}{3}. 同理 P\\{X=x_{2}\\}=\\frac{3}{4}. 从而 P\\{X=x_{2},Y=y_{3}\\} 故 Y y_{1}y_{2}y_{3}X x_{1}\\frac{1}{24}\\frac{1}{8}\\frac{1}{12}x_{2}\\frac{1}{8}\\frac{3}{8}\\frac{1}{4}P\\{Y=y_{j}\\}=p_{j}\\frac{1}{6}\\frac{1}{2}\\frac{1}{3}P\\{X=x_{i}\\}=P_{i}\\frac{1}{4}\\frac{3}{4}