[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"$fxhOFUGiHKJSYH2na2mxTULAo_HlT7vFxNikZ5ppdFJ8":3},{"answer":4,"createTime":5,"id":6,"options":7,"origin":12,"question":19,"related":20,"source":30,"type":31},[],"2024-03-31 12:27:50",136371978,[8,9,10,11],"杂化轨道中不一定都有电子","原子轨道杂化后,杂化轨道的形状变成一头大一头小,有利于牢固成键","同一原子能量相近的原子轨道参与杂化","所有原子轨道都参与杂化",{"count":13,"courseId":14,"courseImg":15,"courseName":16,"workId":17,"workName":18},78,"df605301e3f189204974cf03f7379eba","https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F5865f7bbb6ac03f4df94010d0b50a871.jpg","医用化学","work_33715928","无机化学总复习","下列关于杂化轨道说法中,错误的有( )",[21,32,41,50,59,68,78,88,97,100],{"answer":22,"createTime":5,"id":23,"options":24,"question":29,"source":30,"type":31},[],136371970,[25,26,27,28],"Cl2","Sn","I2","Cu2+","在298.15K标准状态下,电对Cu2+\u002FCu、I2\u002FI-、Sn4+\u002FSn2+、Cl2\u002FCl-中最强的氧化剂是()(EΘ(Cu2+\u002FCu)=0.3419V;EΘ(I2\u002FI-)=0.5355V;EΘ(Sn4+\u002FSn2+)=0.151V;EΘ(Cl2\u002FCl-)=1.358","v1",0,{"answer":33,"createTime":5,"id":34,"options":35,"question":40,"source":30,"type":31},[],136371971,[36,37,38,39],"氯原子的外层电子多于氮原子的外层电子","H-Cl键的键能(431KJ·mol-)大于N-H键(389 KJ·mol-1)","氯的相对原子质量大于氮的相对原子质量","氯的原子半径大于氮的原子半径","氯的电负性等于氮的电负性,在液态HC1之间氢键的倾向小,而在液态NH3之间却很大,原因是( )",{"answer":42,"createTime":5,"id":43,"options":44,"question":49,"source":30,"type":31},[],136371972,[45,46,47,48],"进行电子重排","增加成键能力","增加配对的电子数","保持共价键方向性","原子轨道之所以要发生杂化是因为( )",{"answer":51,"createTime":5,"id":52,"options":53,"question":58,"source":30,"type":31},[],136371973,[54,55,56,57],"配键是稳定的化学键","配键的强度可以和氢键相比较","四面体配合物中,不存在顺反几何异构现象","配合物的形成体通常是过渡金属元素","下列说法中错误的是( )",{"answer":60,"createTime":5,"id":61,"options":62,"question":67,"source":30,"type":31},[],136371974,[63,64,65,66],"20g\u002FL","3g\u002FL","9g\u002FL","15g\u002FL","下列NaCl溶液能使红细胞产生溶血现象的是( )",{"answer":69,"createTime":70,"id":71,"options":72,"question":77,"source":30,"type":31},[],"2024-03-31 15:17:18",136371975,[73,74,75,76],"NH4Cl","NaOH","NHCO3","HCl","下面物质可以用来纠正碱中毒的是( )",{"answer":79,"createTime":80,"id":81,"options":82,"question":87,"source":30,"type":31},[],"2024-03-31 15:17:19",136371976,[83,84,85,86],"范德华作用力不同","分子结构不同","极性不同","氢键强度不同","乙醇的沸点比氯乙烷高,这是由于( )",{"answer":89,"createTime":5,"id":90,"options":91,"question":96,"source":30,"type":31},[],136371977,[92,93,94,95],"质量浓度","物质的量","物质的质量","物质的量浓度","符号n用来表示( )",{"answer":98,"createTime":5,"id":6,"options":99,"question":19,"source":30,"type":31},[],[8,9,10,11],{"answer":101,"createTime":80,"id":102,"options":103,"question":108,"source":30,"type":31},[],136371979,[104,105,106,107],"0.1 mol\u002FLCaCl2与0.3 mol\u002FLMgSO4","0.4 mol\u002FL葡萄糖与0.2 mol\u002FLCaCl2","0.3 mol\u002FL葡萄糖与0.6 mol\u002FL蔗糖","0.12 mol\u002FL CaCl2与0.18 mol\u002FL NaCl","下列各组溶液中,在相同温度下,渗透压相等的是( )"]