17e0b750a9cd46a.jpg的原函数是( )。
未知类型:{'options': ['17e0b750b39ee60.jpg(t≥0)', ' [img=167x33]17e0b750bcfe82e.jpg[/img](t≥0)', ' [img=181x33]17e0b750c69629d.jpg[/img](t≥0)', ' [img=181x33]17e0b750d01c98b.jpg[/img](t≥0)'], 'type': 102}
未知类型:{'options': ['17e0b750b39ee60.jpg(t≥0)', ' [img=167x33]17e0b750bcfe82e.jpg[/img](t≥0)', ' [img=181x33]17e0b750c69629d.jpg[/img](t≥0)', ' [img=181x33]17e0b750d01c98b.jpg[/img](t≥0)'], 'type': 102}
举一反三
- 如下命令中不能实现如下微分方程组[img=327x203]17e443a5d83ce02.png[/img],在初值条件[img=172x112]17e443a5e2ead01.png[/img]下的特解求解的是: A: [x,y] = dsolve('Dx+5*x+y = exp(t)', 'Dy-x-3*y=0', 'x(0)=1', 'y(0)=0', 't') B: [x,y] = dsolve('Dx+5*x+y = exp(t)', 'Dy-x-3*y=0', 'x(0)=1, y(0)=0', 't') C: [x,y] = dsolve('Dx+5*x+y = exp(t)', 'Dy-x-3*y=0', 'x(0)=1', 'y(0)=0') D: [x,y] = dsolve('Dx+5*x+y = exp(t)', 'Dy-x-3*y=0', 'x(0)=1', 'y(0)=0', 'x')
- 已知原电池[img=207x29]17e0bb02f360c6d.png[/img],其反应达到平衡时,原电池的电动势( ) 未知类型:{'options': ['EƟ = 0,E[img=15x15]17e0aa130982cc1.png[/img]0。', ' E Ɵ= 0,E = 0。', ' E Ɵ[img=15x15]17e0aa130982cc1.png[/img]0,E = 0。', ' E Ɵ[img=15x15]17e0aa130982cc1.png[/img]0,', ' [img=15x15]17e0aa130982cc1.png[/img]0。'], 'type': 102}
- 已知原电池[img=196x29]17e0bb02b528fd2.png[/img],其反应达到平衡时,原电池的电动势( ) 未知类型:{'options': ['EƟ = 0,E[img=15x15]17e0aa130982cc1.png[/img]0。', ' E Ɵ= 0,E = 0。', ' E Ɵ[img=15x15]17e0aa130982cc1.png[/img]0,E = 0。', ' E Ɵ[img=15x15]17e0aa130982cc1.png[/img]0,', ' [img=15x15]17e0aa130982cc1.png[/img]0。'], 'type': 102}
- 函数f(x)=[img=40x76]17e0bf8d391c13e.png[/img]的不连续点为( ) 未知类型:{'options': ['x=0', ' x=[img=43x39]17e0bf8d4513730.png[/img](k=0,±1,±2,…)', ' x=0和x=2kπ(k=0,±1,±2,…)', ' x=0和x=[img=43x39]17e0bf8d4513730.png[/img](k=0,±1,±2,…)'], 'type': 102}
- 函数[img=88x38]17e4394498928df.jpg[/img]的极大值( ),极小值( ) 未知类型:{'options': ['1,0', ' 0,-1', ' [img=17x34]17e43944a16c9ed.jpg[/img],0', ' e,0'], 'type': 102}