已知:e=100•sin(03c9t-6000b0)V,t=0时,e等于()V。
已知:e=100•sin(03c9t-6000b0)V,t=0时,e等于()V。
求微分方程[img=261x61]17da6536c0cca5d.png[/img]的通解; ( ) A: C18*cos(t) - C20*sin(t) - C19*t*cos(t) - C21*t*sin(t) B: C18*cos(t) + C20*sin(t) - C19*t*cos(t) - C21*t*sin(t) C: C18*cos(t) + C20*sin(t) + C19*t*cos(t) + C21*t*sin(t) D: -C18*cos(t) + C20*sin(t) + C19*t*cos(t) + C21*t*sin(t)
求微分方程[img=261x61]17da6536c0cca5d.png[/img]的通解; ( ) A: C18*cos(t) - C20*sin(t) - C19*t*cos(t) - C21*t*sin(t) B: C18*cos(t) + C20*sin(t) - C19*t*cos(t) - C21*t*sin(t) C: C18*cos(t) + C20*sin(t) + C19*t*cos(t) + C21*t*sin(t) D: -C18*cos(t) + C20*sin(t) + C19*t*cos(t) + C21*t*sin(t)
设\(z = {e^{x - 2y}}\),而\(x = \sin t,\;y = {t^3},\)则\( { { dz} \over {dt}} = \)( ) A: \({e^{\sin t - 2{t^3}}}\) B: \({e^{\sin t - 2{t^3}}}\left( {\cos t - 6{t^2}} \right)\) C: \({e^{\sin t - 2{t^3}}}\ {\sin t } \) D: \({e^{\sin t - 2{t^3}}}\,{t^3}\)
设\(z = {e^{x - 2y}}\),而\(x = \sin t,\;y = {t^3},\)则\( { { dz} \over {dt}} = \)( ) A: \({e^{\sin t - 2{t^3}}}\) B: \({e^{\sin t - 2{t^3}}}\left( {\cos t - 6{t^2}} \right)\) C: \({e^{\sin t - 2{t^3}}}\ {\sin t } \) D: \({e^{\sin t - 2{t^3}}}\,{t^3}\)
下列信号中,( )信号的频谱是连续的。 A: $x(t) = A\sin (\omega t + {\varphi _1}) + B\sin (3\omega t + {\varphi _2})$ B: $x(t) = 5\sin 30t + 3\sin \sqrt {50} t$ C: $x(t) = {e^{ - at}}\sin {\omega _0}t$
下列信号中,( )信号的频谱是连续的。 A: $x(t) = A\sin (\omega t + {\varphi _1}) + B\sin (3\omega t + {\varphi _2})$ B: $x(t) = 5\sin 30t + 3\sin \sqrt {50} t$ C: $x(t) = {e^{ - at}}\sin {\omega _0}t$
信号x(t) = sin(t)+sin(√2.t),是一个周期信号
信号x(t) = sin(t)+sin(√2.t),是一个周期信号
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: \({e^{\sin t - 2{t^3}}}(\cos t - 6{t^2})\)
x=tan(t)sin(t)-cos(t)=?
x=tan(t)sin(t)-cos(t)=?
已知函数[img=102x27]18030256dad01f2.png[/img],求其三阶导数,下面命令正确的是() A: syms t; G=simplify(diff(t^2*sin(t),t,3)) B: syms t; G=simplify(int(t^2*sin(t),t,3)) C: syms t; G=simplify(diff(t^2*sin(t),t)) D: syms t; G=simplify(int(t^2*sin(t),t))
已知函数[img=102x27]18030256dad01f2.png[/img],求其三阶导数,下面命令正确的是() A: syms t; G=simplify(diff(t^2*sin(t),t,3)) B: syms t; G=simplify(int(t^2*sin(t),t,3)) C: syms t; G=simplify(diff(t^2*sin(t),t)) D: syms t; G=simplify(int(t^2*sin(t),t))
对称正序三相电压源星形联接, 若相电压uA=100 sin(ωt- 60°)V,则线电压[img=40x24]17e0bc26d08ec81.png[/img]( ) V。 未知类型:{'options': ['100[img=24x24]17e0b0e63dfa705.png[/img]sin(ωt-150°)', ' 100[img=24x24]17e0b0e63dfa705.png[/img]sin(ωt+90°)', ' 100 sin(ωt+90°)', ' 100 sin(ωt-150°)'], 'type': 102}
对称正序三相电压源星形联接, 若相电压uA=100 sin(ωt- 60°)V,则线电压[img=40x24]17e0bc26d08ec81.png[/img]( ) V。 未知类型:{'options': ['100[img=24x24]17e0b0e63dfa705.png[/img]sin(ωt-150°)', ' 100[img=24x24]17e0b0e63dfa705.png[/img]sin(ωt+90°)', ' 100 sin(ωt+90°)', ' 100 sin(ωt-150°)'], 'type': 102}
符号函数绘图法绘制函数x=sin(3t)cos(t),y=sin(3t)sin(t)的图形,t的变化范围为[0,2p]
符号函数绘图法绘制函数x=sin(3t)cos(t),y=sin(3t)sin(t)的图形,t的变化范围为[0,2p]