A: [img=16x43]1803a4ba0963342.png[/img]
B: [img=32x43]1803a4ba11a12ea.png[/img]
C: [img=16x43]1803a4ba1a38a78.png[/img]
D: [img=32x43]1803a4ba233c8cb.png[/img]
举一反三
- 设随机变量X满足[img=177x27]1803c5fb9a5b546.png[/img],则[img=71x25]1803c5fba377324.png[/img]( ) A: 4 B: 8 C: 16 D: 32
- 设二维随机变量(X,Y)的概率密度为[img=356x71]1803395b6527b0d.png[/img]设Z = X + Y的概率密度[img=40x25]1803395b6dc36d8.png[/img],则[img=41x25]1803395b7554ba4.png[/img]=( ). A: 0 B: 1/8 C: 1/4 D: 3/4
- 设二维随机变量(X,Y)的概率密度为[img=356x71]1802f2b509f652e.png[/img]设Z = X + Y的概率密度[img=40x25]1802f2b5127d386.png[/img],则[img=41x25]1802f2b51a7de69.png[/img]=( ). A: 0 B: 1/8 C: 1/4 D: 3/4
- 设二维随机变量(X,Y)的概率密度为[img=356x71]180390b006a79f6.png[/img]设Z = X + Y的概率密度[img=40x25]180390b00f17b02.png[/img],则[img=41x25]180390b0176f356.png[/img]=( ). A: 0 B: 1/8 C: 1/4 D: 3/4
- 设二维随机变量(X,Y)的概率密度为[img=356x71]1803a74b2e40bef.png[/img]设Z = X + Y的概率密度[img=40x25]1803a74b37ba636.png[/img],则[img=41x25]1803a74b41f9e6c.png[/img]=( ). A: 0 B: 1/8 C: 1/4 D: 3/4
内容
- 0
设正态分布N(0, 4)的分布函数为F(x),则F’(x) = ( ). A: [img=73x63]1802f2c47707b95.png[/img] B: [img=86x65]1802f2c47feb07a.png[/img] C: [img=75x58]1802f2c4884644b.png[/img] D: [img=87x58]1802f2c48fffbbf.png[/img]
- 1
设正态分布N(0, 4)的分布函数为F(x),则F’(x) = ( ). A: [img=73x63]1802f2a8aba67a6.png[/img] B: [img=86x65]1802f2a8b46de33.png[/img] C: [img=75x58]1802f2a8bcdd988.png[/img] D: [img=87x58]1802f2a8c497bb0.png[/img]
- 2
设正态分布N(0, 4)的分布函数为F(x),则F’(x) = ( ). A: [img=73x63]18031e92d8d1247.png[/img] B: [img=86x65]18031e92e1612dc.png[/img] C: [img=75x58]18031e92e9c3836.png[/img] D: [img=87x58]18031e92f20200d.png[/img]
- 3
设[img=121x51]1803281c887762a.png[/img][img=118x51]1803281c90e8df4.png[/img]已知AB=BA,则x = ____
- 4
已知y=f(x)是奇函数,当x≥0时,[img=62x34]17e0bf81aac3b63.png[/img],则f(-8)的值是( ) A: -8 B: -4 C: 4 D: 8