[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"$fYEKq3DgPcP3tlbX2tZPp88lcDpZYt4b6figUuKZiJss":3},{"answer":4,"createTime":5,"id":6,"options":7,"origin":12,"question":19,"related":20,"source":24,"type":25},[],"2025-05-18 19:42:49",188825344,[8,9,10,11],"n-1",".n(n-1)\u002F2",".n(n+1)\u002F2",".n",{"count":13,"courseId":14,"courseImg":15,"courseName":16,"workId":17,"workName":18},18,"ce33d3acb287e946bd2f3815b91367f6","https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F00621f454656187db1253702327eece9.jpeg","2025原子物理学","work_43458201","第二章 玻尔氢原子理论","若氢原子被激发到主量子数为n的能级,当产生能级跃迁时可能发生的所有谱线总条数应为",[21,26,35,44,53,62,68,77,86,95],{"answer":22,"createTime":5,"id":6,"options":23,"question":19,"source":24,"type":25},[],[8,9,10,11],"v1",0,{"answer":27,"createTime":5,"id":28,"options":29,"question":34,"source":24,"type":25},[],188825345,[30,31,32,33],"13.6V和10.2V","&ndash;13.6V和-10.2V","13.6V和3.4V","&ndash;13.6V和-3.4V","氢原子基态的电离电势和第一激发电势分别是",{"answer":36,"createTime":5,"id":37,"options":38,"question":43,"source":24,"type":25},[],188825346,[39,40,41,42],"5.29 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002Fe282af023806a5e69b93f423640b9380.png\">m","0.529&times;10 -10m","5.29&times;10 -12m","529&times;10 -12m","由玻尔氢原子理论得出的第一玻尔半径\u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F61a8c7587f92b6af7b60163e61a8c1d3.png\">的数值是",{"answer":45,"createTime":5,"id":46,"options":47,"question":52,"source":24,"type":25},[],188825347,[48,49,50,51],"可能出现10条谱线,分别属四个线系","可能出现9条谱线,分别属3个线系","可能出现11条谱线,分别属5个线系","可能出现1条谱线,属赖曼系","根据玻尔理论,若将氢原子激发到n=5的状态,则",{"answer":54,"createTime":5,"id":55,"options":56,"question":61,"source":24,"type":25},[],188825348,[57,58,59,60],"1","6","4","3","氢原子被激发后其电子处在第四轨道上运动,按照玻尔理论在观测时间内最多能看到几条线",{"answer":63,"createTime":5,"id":64,"options":65,"question":67,"source":24,"type":25},[],188825349,[60,66,57,59],"10","用能量为12.7eV的电子去激发基态氢原子时,受激氢原子向低能级跃迁时最多可能出现几条光谱线(不考虑自旋)",{"answer":69,"createTime":5,"id":70,"options":71,"question":76,"source":24,"type":25},[],188825350,[72,73,74,75],"3.3 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F279a39e147d094828afaf9febbbc54cb.png\">10 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002Fc6f5f7f87c63fd95983bff068a138844.png\">","2.4 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F279a39e147d094828afaf9febbbc54cb.png\">10 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002Fc6f5f7f87c63fd95983bff068a138844.png\">","5.7 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F279a39e147d094828afaf9febbbc54cb.png\">10 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002Fc6f5f7f87c63fd95983bff068a138844.png\">","2.1 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F279a39e147d094828afaf9febbbc54cb.png\">10 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F46949b0386392cd89962c9752a86f5bc.png\">. \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F485ab4050fa010555073361367446d80.png\">","有速度为1.875\u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F653c7fc3bcc2daf4fdbf9481bb11410a.png\">的自由电子被一质子俘获,放出一个光子而形成基态氢原子,则光子的频率(Hz)为",{"answer":78,"createTime":5,"id":79,"options":80,"question":85,"source":24,"type":25},[],188825352,[81,82,83,84],"2 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F61a8c7587f92b6af7b60163e61a8c1d3.png\">","ub&gt; B. 4 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F61a8c7587f92b6af7b60163e61a8c1d3.png\">","ub&gt; C. \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F61a8c7587f92b6af7b60163e61a8c1d3.png\">\u002F2","\u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F61a8c7587f92b6af7b60163e61a8c1d3.png\">\u002F4","根据玻尔理论可知,氦离子He+的第一轨道半径是",{"answer":87,"createTime":5,"id":88,"options":89,"question":94,"source":24,"type":25},[],188825353,[90,91,92,93],"0.53 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F279a39e147d094828afaf9febbbc54cb.png\">10 -10m","1.06 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002Fe0d98415a66b2d8959e730ff99aeed15.png\">10 -10m","2.12 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F279a39e147d094828afaf9febbbc54cb.png\">10 -10m","0.26 \u003Cimg src=\"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F279a39e147d094828afaf9febbbc54cb.png\">10 -10m","一次电离的氦离子 He+处于第一激发态(n=2)时电子的轨道半径为",{"answer":96,"createTime":5,"id":97,"options":98,"question":103,"source":24,"type":25},[],188825354,[99,100,101,102],"27.2eV","54.4eV","19.77eV","24.17eV","在He+离子中基态电子的结合能是"]