设语句int t=2;,执行语句t*=t+=t+t;后,变量t的值是: A: 12 B: 36 C: 0 D: -6
设语句int t=2;,执行语句t*=t+=t+t;后,变量t的值是: A: 12 B: 36 C: 0 D: -6
36=1×36=2×()=()×()=()×()=()×()36的全部因数是:
36=1×36=2×()=()×()=()×()=()×()36的全部因数是:
已知列表:L=[2, 16, 36, 64],则执行L.insert(0,10)后,L的值是________。 A: [2, 10,16, 36, 64] B: [10, 2, 16, 36, 64] C: [2, 16, 36, 64,10] D: [10, 16, 36, 64]
已知列表:L=[2, 16, 36, 64],则执行L.insert(0,10)后,L的值是________。 A: [2, 10,16, 36, 64] B: [10, 2, 16, 36, 64] C: [2, 16, 36, 64,10] D: [10, 16, 36, 64]
Fill in the blankFor the expressionf(t)=tε(t)+2ε(t−2)−tε(t−2),f(3)=______ .
Fill in the blankFor the expressionf(t)=tε(t)+2ε(t−2)−tε(t−2),f(3)=______ .
现有中缀表达式E=((100-4)/3+3*(36-7))*2。以下哪个是与E等价的后缀表达式? A: * + / – 100 4 3 * 3 – 36 7 2 B: * ( + / ( – 100 4 ) 3 * 3 ( – 36 7 ) ) 2 C: ( ( 100 4 – ) 3 / 3 ( 36 7 – ) * + ) 2 * D: 100 4 – 3 / 3 36 7 – * + 2 *
现有中缀表达式E=((100-4)/3+3*(36-7))*2。以下哪个是与E等价的后缀表达式? A: * + / – 100 4 3 * 3 – 36 7 2 B: * ( + / ( – 100 4 ) 3 * 3 ( – 36 7 ) ) 2 C: ( ( 100 4 – ) 3 / 3 ( 36 7 – ) * + ) 2 * D: 100 4 – 3 / 3 36 7 – * + 2 *
一阶常微分方程[img=152x26]1802e4d6075ee4f.png[/img]的通解为 A: sin(2*t)/5-cos(2*t)/10+C*exp(-4*t) B: sin(2*t)/7+cos(2*t)/5-C*exp(-3*t) C: sin(2*t)/7-C*cos(2*t)/10+C*exp(-2*t) D: sin(2*t)/7-cos(2*t)/7+C*exp(-5*t)
一阶常微分方程[img=152x26]1802e4d6075ee4f.png[/img]的通解为 A: sin(2*t)/5-cos(2*t)/10+C*exp(-4*t) B: sin(2*t)/7+cos(2*t)/5-C*exp(-3*t) C: sin(2*t)/7-C*cos(2*t)/10+C*exp(-2*t) D: sin(2*t)/7-cos(2*t)/7+C*exp(-5*t)
已知向量组\(\alpha_{1}=(1,1,2)^T,\alpha_{2}=(3,t,1)^T,\alpha_{3}=(0,2,-t)^T,\)线性相关\(,\)则\(t\)=\(( \quad )\)。 A: 、\(t=5\)或\(t=-2\) B: 、\(t=5\)或\(t=2\) C: 、\(t=-5\)或\(t=2\) D: 、\(t=1\)或\(t=-2\)
已知向量组\(\alpha_{1}=(1,1,2)^T,\alpha_{2}=(3,t,1)^T,\alpha_{3}=(0,2,-t)^T,\)线性相关\(,\)则\(t\)=\(( \quad )\)。 A: 、\(t=5\)或\(t=-2\) B: 、\(t=5\)或\(t=2\) C: 、\(t=-5\)或\(t=2\) D: 、\(t=1\)或\(t=-2\)
求微分方程[img=269x55]17da6536a9fba07.png[/img]的通解; ( ) A: (C15*sin(2*t))/exp(3*t) + (C16*sin(2*t))/exp(3*t) B: (C15*cos(2*t))/exp(3*t) - (C16*sin(2*t))/exp(3*t) C: (C15*cos(2*t))/exp(3*t) + (C16*cos(2*t))/exp(3*t) D: (C15*cos(2*t))/exp(3*t) + (C16*sin(2*t))/exp(3*t)
求微分方程[img=269x55]17da6536a9fba07.png[/img]的通解; ( ) A: (C15*sin(2*t))/exp(3*t) + (C16*sin(2*t))/exp(3*t) B: (C15*cos(2*t))/exp(3*t) - (C16*sin(2*t))/exp(3*t) C: (C15*cos(2*t))/exp(3*t) + (C16*cos(2*t))/exp(3*t) D: (C15*cos(2*t))/exp(3*t) + (C16*sin(2*t))/exp(3*t)
假设检验的拒绝域是()。 A: (-∞,-z<sub>α/2</sub>]∪[z<sub>α/2</sub>,+∞) B: (-∞,-t<sub>α/2</sub>]∪[t<sub>α/2</sub>,+∞),t<sub>α/2</sub>=t<sub>α/2</sub>(n) C: (-∞,-t<sub>α/2</sub>]∪[t<sub>α/2</sub>,+∞),t<sub>α/2</sub>=t<sub>α/2</sub>(n-1) D: (t<sub>α</sub>,+∞)
假设检验的拒绝域是()。 A: (-∞,-z<sub>α/2</sub>]∪[z<sub>α/2</sub>,+∞) B: (-∞,-t<sub>α/2</sub>]∪[t<sub>α/2</sub>,+∞),t<sub>α/2</sub>=t<sub>α/2</sub>(n) C: (-∞,-t<sub>α/2</sub>]∪[t<sub>α/2</sub>,+∞),t<sub>α/2</sub>=t<sub>α/2</sub>(n-1) D: (t<sub>α</sub>,+∞)
设\(z = {e^{x - 2y}}\),而\(x = \sin t\),\(y = {t^3}\),则全导数\( { { dz} \over {dt}} = \) A: \({e^{\sin t - {t^3}}}(\cos t - 6{t^2})\) B: \({e^{\sin t - 2{t^3}}}(\sin t - 6{t^2})\) C: \({e^{\cos t - 2{t^3}}}(\cos t - 6{t^2})\) D: \({e^{\sin t - 2{t^3}}}(\cos t - 6{t^2})\)
设\(z = {e^{x - 2y}}\),而\(x = \sin t\),\(y = {t^3}\),则全导数\( { { dz} \over {dt}} = \) A: \({e^{\sin t - {t^3}}}(\cos t - 6{t^2})\) B: \({e^{\sin t - 2{t^3}}}(\sin t - 6{t^2})\) C: \({e^{\cos t - 2{t^3}}}(\cos t - 6{t^2})\) D: \({e^{\sin t - 2{t^3}}}(\cos t - 6{t^2})\)