以点\( (2, - 1,2) \)求球心,3为半径的球面方程为( ) A: \( {(x + 2)^2} + {(y - 1)^2} + {(z + 2)^2} = 9 \) B: \( {(x + 2)^2} + {(y - 1)^2} + {(z + 2)^2} = 3 \) C: \( {(x - 2)^2} + {(y + 1)^2} + {(z - 2)^2} = 9 \) D: \( {(x - 2)^2} + {(y + 1)^2} + {(z - 2)^2} = 3 \)
以点\( (2, - 1,2) \)求球心,3为半径的球面方程为( ) A: \( {(x + 2)^2} + {(y - 1)^2} + {(z + 2)^2} = 9 \) B: \( {(x + 2)^2} + {(y - 1)^2} + {(z + 2)^2} = 3 \) C: \( {(x - 2)^2} + {(y + 1)^2} + {(z - 2)^2} = 9 \) D: \( {(x - 2)^2} + {(y + 1)^2} + {(z - 2)^2} = 3 \)
以点\( (2, - 1,2) \) 为球心,3为半径的球面方程为( ) A: \( {\left( {x + 2} \right)^2} + {(y - 1)^2} + {(z + 2)^2} = 9 \) B: \( {\left( {x + 2} \right)^2} + {(y - 1)^2} + {(z + 2)^2} = 3 \) C: \( {\left( {x - 2} \right)^2} + {(y + 1)^2} + {(z - 2)^2} = 9 \) D: \( {\left( {x - 2} \right)^2} + {(y + 1)^2} + {(z - 2)^2} = 3 \)
以点\( (2, - 1,2) \) 为球心,3为半径的球面方程为( ) A: \( {\left( {x + 2} \right)^2} + {(y - 1)^2} + {(z + 2)^2} = 9 \) B: \( {\left( {x + 2} \right)^2} + {(y - 1)^2} + {(z + 2)^2} = 3 \) C: \( {\left( {x - 2} \right)^2} + {(y + 1)^2} + {(z - 2)^2} = 9 \) D: \( {\left( {x - 2} \right)^2} + {(y + 1)^2} + {(z - 2)^2} = 3 \)
设\(z = \int_ { { x^2}}^y { { e^t}\sin t} dt\),则\({z''_{xy}} = \)______ 。
设\(z = \int_ { { x^2}}^y { { e^t}\sin t} dt\),则\({z''_{xy}} = \)______ 。
9. 已知函数$z=z(x,y)$由${{z}^{3}}-3xyz={{a}^{3}}$确定,则$\frac{{{\partial }^{2}}z}{\partial x\partial y}=$( ) A: $\frac{z({{z}^{4}}-2xy{{z}^{2}}-{{x}^{2}}{{y}^{2}})}{{{({{z}^{2}}-xy)}^{3}}}$ B: $\frac{z({{z}^{4}}-2xy{{z}^{2}}-xy)}{{{({{z}^{2}}-xy)}^{2}}}$ C: $\frac{z({{z}^{3}}-2xyz-{{x}^{2}}{{y}^{2}})}{{{({{z}^{2}}-xy)}^{3}}}$ D: $\frac{z({{z}^{3}}-2xy{{z}^{2}}-{{x}^{2}}y)}{{{({{z}^{2}}-xy)}^{3}}}$
9. 已知函数$z=z(x,y)$由${{z}^{3}}-3xyz={{a}^{3}}$确定,则$\frac{{{\partial }^{2}}z}{\partial x\partial y}=$( ) A: $\frac{z({{z}^{4}}-2xy{{z}^{2}}-{{x}^{2}}{{y}^{2}})}{{{({{z}^{2}}-xy)}^{3}}}$ B: $\frac{z({{z}^{4}}-2xy{{z}^{2}}-xy)}{{{({{z}^{2}}-xy)}^{2}}}$ C: $\frac{z({{z}^{3}}-2xyz-{{x}^{2}}{{y}^{2}})}{{{({{z}^{2}}-xy)}^{3}}}$ D: $\frac{z({{z}^{3}}-2xy{{z}^{2}}-{{x}^{2}}y)}{{{({{z}^{2}}-xy)}^{3}}}$
已知随机变量X, Y, Z的协方差Cov(X, Z)=2,Cov(Y, Z)=1,则 Cov(X+Y, 3Z)= A: 2 B: 3 C: 6 D: 9
已知随机变量X, Y, Z的协方差Cov(X, Z)=2,Cov(Y, Z)=1,则 Cov(X+Y, 3Z)= A: 2 B: 3 C: 6 D: 9
已知随机变量X, Y, Z的协方差Cov(X, Z)=2,Cov(Y, Z)=1,则 Cov(X+Y, 3Z)= A: 2 B: 3 C: 6 D: 9
已知随机变量X, Y, Z的协方差Cov(X, Z)=2,Cov(Y, Z)=1,则 Cov(X+Y, 3Z)= A: 2 B: 3 C: 6 D: 9
已知随机变量X, Y, Z的协方差Cov(X, Z)=2,Cov(Y, Z)=1,则 Cov(X+Y, 3Z)= A: 2 B: 3 C: 6 D: 9
已知随机变量X, Y, Z的协方差Cov(X, Z)=2,Cov(Y, Z)=1,则 Cov(X+Y, 3Z)= A: 2 B: 3 C: 6 D: 9
已知随机变量X, Y, Z的协方差Cov(X, Z)=2,Cov(Y, Z)=1,则 Cov(X+Y, 3Z)= A: 2 B: 3 C: 6 D: 9
已知随机变量X, Y, Z的协方差Cov(X, Z)=2,Cov(Y, Z)=1,则 Cov(X+Y, 3Z)= A: 2 B: 3 C: 6 D: 9
设方程\(z^2+y^2+z^2 = 4z\)确定函数\(z=z(x,y)\),则\( { { {\partial ^2}z} \over {\partial {x^2}}} =\) A: \( { { { { (2 - z)}^2} + {x^2}} \over { { {(2+ z)}^3}}}\) B: \( { { { { (2 - z)}^2} + {x^2}} \over { { {(2 - z)}^3}}}\) C: \( { { { { (2 - z)}^2} -{x^2}} \over { { {(2 - z)}^3}}}\) D: \( { { { { (2 + z)}^2} + {x^2}} \over { { {(2 - z)}^3}}}\)
设方程\(z^2+y^2+z^2 = 4z\)确定函数\(z=z(x,y)\),则\( { { {\partial ^2}z} \over {\partial {x^2}}} =\) A: \( { { { { (2 - z)}^2} + {x^2}} \over { { {(2+ z)}^3}}}\) B: \( { { { { (2 - z)}^2} + {x^2}} \over { { {(2 - z)}^3}}}\) C: \( { { { { (2 - z)}^2} -{x^2}} \over { { {(2 - z)}^3}}}\) D: \( { { { { (2 + z)}^2} + {x^2}} \over { { {(2 - z)}^3}}}\)
方程组 x+y+z=1, (1) 2y+ z=5 (2) 3z=9 (3) 的解是
方程组 x+y+z=1, (1) 2y+ z=5 (2) 3z=9 (3) 的解是