能级跃迁图怎么画
![会了么 示意信息如同氢原子能级轨道跃迁般触发状态变频](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A73A40A780E10B95A1ED0E7D6898C661DF564395646F09A72B78069081E1BAB65F455A3553FCE2BF154BFF3C009033A6E9DD5F14D6D81987CAA45FEA4D8385A98F2C5A988B6F5F7A9F80D139465F5A105D2)
会了么 示意信息如同氢原子能级轨道跃迁般触发状态变频
图片尺寸640x546![电子能级跃迁示意图](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E94E1B6ED3F23F0358A2B2DBB6AAB45724EB45DEAF695C601299B3615F18DBFE401EDC80BBEF121355CF7CDC7245D9BCA6D6140560D5E3496B3460EF6D8A1019F73855481041A726CCE3DCB32BBF7CAAC9)
电子能级跃迁示意图
图片尺寸420x296![能级跃迁示意图](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E90441E440EBD33819BD53F0E53760F4A815D3C32160CC3613274D37CFE79164606461BD6AB5A745C1964FDA346C798555F9111AF32D79FA8E02AF8CD672C0DCBA44056DE4A5842382B50C3DDC5EB16556)
能级跃迁示意图
图片尺寸640x586![如图所示,能否将原子的能级跃迁与上下楼梯时势能的变化进行比较?](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A735648521DF5C5BCD768DBC84A5ABF7D09BA62EF8495BC03A79E822E94530B673B1F1762A7A382E24D3E8AA5F4795A5F9032AD0FAA99768E416983F169123C957488DC76E7DAD237BA50E7F4C6943027BA)
如图所示,能否将原子的能级跃迁与上下楼梯时势能的变化进行比较?
图片尺寸1560x1080![1紫外光谱的产生主要来源于电子能级跃迁(能量大致在1~20ev 之间)根据](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E833B124390209E94CFCDEC9296FDF4A8FFD50B2F6A757797BFCF4DFC32D74DC7007044F01D4E936BC62CE26B2229F8F7420C673B2B4AAD69A4513371A85976639E14A6816D103CDA1445E9FC4F6E90BAD9)
1紫外光谱的产生主要来源于电子能级跃迁(能量大致在1~20ev 之间)根据
图片尺寸1244x833![当然也不会自发地跃迁到更高或者更低的能级](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E9461ED1C30D568DC3F4E4564AC6DC2B9F1E70EF990DA3E226A1F8D464CE36AD7385A465F7EF4F4D55BB2D21D24AB643C7C42EA6E07C7F36F1867A791302FF7EED796D522B705EA301DF655C0B0C661D8D)
当然也不会自发地跃迁到更高或者更低的能级
图片尺寸1552x621![吸收光谱跃迁示意图.图2b.发射光谱跃迁示意图.图3. 红外吸收光谱.3.](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A730CACF1495D163B40030D8B57618D80CD545F6FA4D2E02CBA7D195781345FDD40380B1F9656BC07DAEAF70030A8B226A3AB8C2914E98CD20416AA7EF1ED9696E609A34A12844B4A17990D8FDFB7D31537)
吸收光谱跃迁示意图.图2b.发射光谱跃迁示意图.图3. 红外吸收光谱.3.
图片尺寸368x239![0304】上转换nayf4:yb er/tm光子能级跃迁图 - 简书](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E830AC551BE7E200BEEDE33956334E40F7B97B19D935A87632E9E7E49C06E5B415732D53BD4185553495866CD81C9A26321C07E83B54F1A2C4B2EA2789AD1BC5CFCAC27C2FC5ABFB7980038CDB6B9DFF8FB)
0304】上转换nayf4:yb er/tm光子能级跃迁图 - 简书
图片尺寸1543x616![如右图所示,氢原子从n>2的某一能级跃迁到n=2的能级,辐射出能量为2.](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A73C246DD9DFC24D86B8A8C50E4954BC527FBD12348959673BB6B64EF7124B096AFE63F30322052509F50536BBF67F6762587575F6FBA69F61BEFFFE1FA7D26EEF1D6CE5A71959DB5CD7F09E67D43DDD74A)
如右图所示,氢原子从n>2的某一能级跃迁到n=2的能级,辐射出能量为2.
图片尺寸701x780![无机纳米材料科研制图visio0304上转换nayf4ybertm光子能级跃迁图](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E8383FB5A6E07441E3295DADC8302C30F3D1DE1EFD659FF5F96F03D8A8DFF8381D83777BDD47AE46DA547203A6CE2B306CE1DD85EC7F7E9E8AC3C8E005A33A8DB3F1C104978896FC6DB284CED829B8E473C)
无机纳米材料科研制图visio0304上转换nayf4ybertm光子能级跃迁图
图片尺寸1459x648![现有大量的氢原子处于n=4的激发态,当向低能级跃迁时辐射出若干不同](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E8330E932CB6034D303F735BECF16241ED506A905C4EC41B1701EA87F49E4D41262939530CACE87936509A8926578E5C7F632710613A03A2E8A959DF4961C1A58CA827295B8E3C0FED1E7BDFD0442E020EE)
现有大量的氢原子处于n=4的激发态,当向低能级跃迁时辐射出若干不同
图片尺寸763x652![分子能级及相应能级跃迁示意图](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A738532D89E8D6D9AE091B2A12EC860F2C7D063BE283B1C07E6A899C16D9DB0AD464AE3A793A2ECB8634555458DB0E50BAABBB61BFA9AEA0C042BB79AEB7D73BD3D4A9DF2DD96318FFE5A3C1542A29FD0EF)
分子能级及相应能级跃迁示意图
图片尺寸353x312![原子从能级n=3向n=1跃迁所放出的光子,正好使某种金属材料产生光电](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E9380F40DAC346B973A3573BD23C464A689539646CCBA188DBC27826D94D0900CB20100DCD2AE179331BEB7D63F08CC95EE4346F71EF5B1A2366926D559ABC3740E9E60BDAFBFF93E1173093A12DD5A777)
原子从能级n=3向n=1跃迁所放出的光子,正好使某种金属材料产生光电
图片尺寸814x624![[能级跃迁]](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A73C3A27EB88B7571217FCBF4976FDC0B6EBA1B7D05A176988AE41DA68F407FE60DAA3E0308B2580B021D1429D8E7AA2C20A9BCB992CFF92CD25D74E3D449813790E4566BB1EEDE6DEEECA3AF366CB4CC79)
[能级跃迁]
图片尺寸710x605![钠能级跃迁图](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A7337B5AB51892FBA0F18BAA16DAAD595FDA6D9BB56E43828431D4F6EB7780C2F116DB623679BFB13CDE733EDB4A75F643537495F5A306C172BE6A8B982F8EAD4E0B23AAA28BAD60ED6F46E0481E414B035)
钠能级跃迁图
图片尺寸456x543![荧光分子跃迁能谱图](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E838E66567989A03118C6B575FD330B3374A08D37B29AB6B094F56BF5112E4BB9F6BDA66D809B38D75346198E201BDF53DA05FF1876CF0372126CABC08B6122445BDDA26BBD1E642CFC7002FF61D9DF74D3)
荧光分子跃迁能谱图
图片尺寸532x464![182,【每日一题】【我爱物理】氢原子能级跃迁问题(氢原子能级示意图](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E9751B70D6D44E5571FE14B15BC9511DF738D8C8E02679B759FE5B13025C9196AC07A2AA01F0903DC96908B8E106EC5570EDBD337CFB028F1F7F68EC353E1C30966748D67697A8F9C28B0AFBEC4D232446)
182,【每日一题】【我爱物理】氢原子能级跃迁问题(氢原子能级示意图
图片尺寸863x540![模型,当环绕的电子从「能阶较高」的轨道,跃迁到「能阶较低」的轨道时](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E8349C018B5B89B3C9B3492755C1CAE4788BA19255F3E1355A9A22A9ED04A933BA92C1DD4DB339615B01549F20AE6BD6FCEE6C6FA61917AA2EAD68E12FD552FC60C8BD5B5FB7E3332D12591D7DEE1E9E676)
模型,当环绕的电子从「能阶较高」的轨道,跃迁到「能阶较低」的轨道时
图片尺寸4167x2738![电子跃迁](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A735FE20AD38B14DA9BB0AB440DBC3BA49743599F4870E3D57AAA9A2AA29FE5C6241509C22C35BDDA25403F267C6AF58134CE6F50B57B1E62C3D85CEBBEB4835D1A59210ADAA262ACEC4F9F0A2F59A8EE9A)
电子跃迁
图片尺寸981x735![图10-18 不饱和醛,酮共轭后轨道能级和电子跃迁](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E918D38D89761951A4C611AA469C9D39C3309830C73C2E865F7D68477A7A0FBA443ABD7724C7888109780B61C508D6672E0C8FA74A5DDFC830AE541ECF3DED0CCCED11E7C951467ADC02166B9356D154EF)
图10-18 不饱和醛,酮共轭后轨道能级和电子跃迁
图片尺寸398x244