[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"$fYhgnU_VN1RPPZ8DagE_7HFebVrcpPo16pJkfRVscSHk":3},{"id":4,"source":5,"question":6,"options":7,"answer":12,"related":13,"type":18,"origin":54,"createTime":20},159802260,"v1","TRIZ理论的物理矛盾中,测量海底时,将声纳探测器与船体空间分离,用以防止干扰,提高测试精度,运用的是( )方法",[8,9,10,11],"空间分离","时间分离","条件分离","系统级别分离",[],[14,21,31,38,48],{"id":4,"source":5,"question":6,"options":15,"answer":16,"related":17,"type":18,"origin":19,"createTime":20},[8,9,10,11],[],[],0,null,"2024-09-20T20:58:37+08:00",{"id":22,"source":5,"question":23,"options":24,"answer":29,"related":30,"type":18,"origin":19,"createTime":20},159802261,"基于关系分离来解决这个物理矛盾,不使用( )发明原理",[25,26,27,28],"复合材料","预先反作用","空间维数变化","周期性作用",[],[],{"id":32,"source":5,"question":33,"options":34,"answer":35,"related":36,"type":37,"origin":19,"createTime":20},159802262,"TRIZ理论的物理矛盾中,分离矛盾的方法包括( )",[8,9,10,11],[],[],1,{"id":39,"source":5,"question":40,"options":41,"answer":46,"related":47,"type":37,"origin":19,"createTime":20},159802263,"基于空间分离来解决这个物理矛盾,可以使用( )发明原理",[42,43,44,45],"嵌套","抽取","局部质量","分割",[],[],{"id":49,"source":5,"question":50,"options":51,"answer":52,"related":53,"type":37,"origin":19,"createTime":20},159802264,"基于关系分离来解决这个物理矛盾,可以使用( )发明原理",[25,28,27,44],[],[],{"courseName":55,"courseImg":56,"workName":57,"workId":58,"count":59,"courseId":60},"脑洞大开背后的创新思维","https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F2c11ff9717161a48fb8cefdfc735fcc2.jpg","物理矛盾解决方法","30a66c7e2c304323ab7d90ca258597c8",5,"a69916f851e23b364ca8c6983fe18a5a"]