“马歇尔—勒纳条件”是指()。 A: |Ex|+|Em|>1 B: |Ex|+|Em|<1 C: |Ex|+|Em|>0 D: |Ex|+|Em|<0
“马歇尔—勒纳条件”是指()。 A: |Ex|+|Em|>1 B: |Ex|+|Em|<1 C: |Ex|+|Em|>0 D: |Ex|+|Em|<0
RLC串联电路中,已知R=XL=XC=5Ω,=1∠0°A,则电路的端电压为()。 A: 1∠0°×(5+j10)V B: 5∠0°V C: 15∠90°V D: 15∠0°V
RLC串联电路中,已知R=XL=XC=5Ω,=1∠0°A,则电路的端电压为()。 A: 1∠0°×(5+j10)V B: 5∠0°V C: 15∠90°V D: 15∠0°V
马歇尔-勒纳条件用数学式表达为( ) A: Ex + Em > 1 B: Ex + Em = 1 C: Ex + Em < 1 D: Ex + Em > 0
马歇尔-勒纳条件用数学式表达为( ) A: Ex + Em > 1 B: Ex + Em = 1 C: Ex + Em < 1 D: Ex + Em > 0
对信码1000100100001000011000011进行HDB3编码,结果可能是( )。 A: -1 0 0 0 +1 0 0 -1 0 0 0 -V +1 0 0 0 +V -1 +1 -B 0 0 -V +1 -1 B: +1 0 0 0 -1 0 0 +1 0 0 0 +V -1 0 0 0 -V +1 -1 +B 0 0 +V -1 +1 C: +1 0 0 0 -1 0 0 +1 0 0 0 +1 -1 0 0 0 -1 +1 -1 +1 0 0 +1 -1 +1 D: -1 0 0 0 +1 0 0 -1 0 0 0 +V +1 0 0 0 +V -1 +1 +B 0 0 -V +1 -1
对信码1000100100001000011000011进行HDB3编码,结果可能是( )。 A: -1 0 0 0 +1 0 0 -1 0 0 0 -V +1 0 0 0 +V -1 +1 -B 0 0 -V +1 -1 B: +1 0 0 0 -1 0 0 +1 0 0 0 +V -1 0 0 0 -V +1 -1 +B 0 0 +V -1 +1 C: +1 0 0 0 -1 0 0 +1 0 0 0 +1 -1 0 0 0 -1 +1 -1 +1 0 0 +1 -1 +1 D: -1 0 0 0 +1 0 0 -1 0 0 0 +V +1 0 0 0 +V -1 +1 +B 0 0 -V +1 -1
货币贬值可以改善贸易收支的马歇尔—勒纳充要条件是: A: 〡 Em 〡+〡Ex 丨>; 1 B: 〡 Em 〡+〡Ex 丨= 1 C: 〡 Em 〡+〡Ex 丨<; 1 D: 〡 Em 〡+〡Ex 丨= 0
货币贬值可以改善贸易收支的马歇尔—勒纳充要条件是: A: 〡 Em 〡+〡Ex 丨>; 1 B: 〡 Em 〡+〡Ex 丨= 1 C: 〡 Em 〡+〡Ex 丨<; 1 D: 〡 Em 〡+〡Ex 丨= 0
MATLAB中调用v=eye(2,1)后的结果为 A: v=[1;0] B: v=[1,0] C: v=[0;1] D: v=[1 0;0 1]
MATLAB中调用v=eye(2,1)后的结果为 A: v=[1;0] B: v=[1,0] C: v=[0;1] D: v=[1 0;0 1]
$u$, $v\in E^3$, $u=(0,-1,1),v=(1,-1,-1)$. What is $||u \times v||^2$:<br/>______
$u$, $v\in E^3$, $u=(0,-1,1),v=(1,-1,-1)$. What is $||u \times v||^2$:<br/>______
$u$, $v\in E^3$, $u=(0,-1,1),v=(1,-1,-1)$. What is $\langle{u,v}\rangle$:<br/>______
$u$, $v\in E^3$, $u=(0,-1,1),v=(1,-1,-1)$. What is $\langle{u,v}\rangle$:<br/>______
微分方程xy"-ylny=0满足y(1)=e的特解是: A: y=ex B: y=ex C: y=e2x D: y=lnx
微分方程xy"-ylny=0满足y(1)=e的特解是: A: y=ex B: y=ex C: y=e2x D: y=lnx
若随机变量X的数学期望存在,则E[E(EX)]=()。 A: 0 B: EX C: (EX) D: (EX)
若随机变量X的数学期望存在,则E[E(EX)]=()。 A: 0 B: EX C: (EX) D: (EX)