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1、紫外光谱习题1. 下列化合物对近紫外光能产生那些电子跃迁?在紫外光谱中有哪何种吸收带?NH2OH(1)CH3CH2CHCH2Cl (2)CH2CHOCH3 (3)CH=CHCH O O0OOOOOCH=CH2(4)(5)OOO (6)CH3CCH2COCH2CH3 (7)ClCH2CH2=CHCC2H5解:紫外吸收在200-400nm区域,且有共轭结构(1)无共轭结构,无吸收锋 (2)共轭结构,无吸收峰(3)有pp*跃迁,产生K带和B带吸收(4)有pp*跃迁和np*跃迁,产生K带、R带和B带吸收(5)有pp*跃迁,产生K带和B带吸收(6)有np*跃迁,产生R带,产生烯醇式互变异构体时,还有K带
2、吸收(7)有pp*跃迁和np*跃迁,产生K带和R带吸收2、比较下列各组化合物的紫外吸收波长的大小(k带)CH(1) a. CH3(CH2)5CH3 b.(CH3)2C=CH-CH2 =C(CH3)2 c.CH2 CH-CH=CH2(2)a.b.c.(3)a.b. O c.O O解:(1)有共轭结构时,紫外吸收波长增大;双键是助色基团,使紫外吸收波长增大,则:c b a(2)有共轭时结构时,l环内共轭l环外共轭, 甲基可以增大紫外吸收波长,则:a c b(3)有共轭时结构时,l环内共轭l环外共轭, 甲基可以增大紫外吸收波长,则:a c b3、用有关经验公式计算下列化合物的最大吸收波长(1)答:l
3、max=253(基本值)+25(5个烷基取代)+5(1个环外双键)=283 nm(2)答:lmax=214(基本值)+20(4个烷基取代)+10(2个环外双键)=244 nm(3)答:lmax=253(基本值)+20(4个烷基取代)=273 nmCH3CO(4)CH2=CCH3答:lmax= 215(基本值)+10(1个烷基取代)=225 nm (5) O 答:lmax=202(基本值)+10(1个烷基取代)+24(2个烷基取代)+10(2个环外双键=246 nm CO(6)CH3答:lmax=215(基本值)+10(1个烷基取代)+24(2个烷基取代)=249 nm (7) O答:lmax=
4、215(基本值)+18(1个烷基取代)+36(2个烷基取代)+30(延长1个共轭双键)=299 nm COOH(8)答:无共轭结构,故无吸收CH3CH3 N(9)COOH CH C CH3答:lmax=208(基本值)+60(1个N(CH3)2取代)=268 nm CH3(10)COCH3OH答:lmax=246(基本值)+7(1个邻位-OH取代)+3(1个间位-CH3取代)=256 nm (11)COOHCH3NHOH答:lmax=230(基本值)+25(1个对位-OH取代)=255 nm 4、能否用紫外光谱区分下列化合物?如何区分?(1)a、答:lmax=217(基本值)+15(3个烷基取
5、代)=232 nmb、答:lmax=217(基本值)+20(4个烷基取代)+5(1个环外双键)=242 nm(2)a、答:lmax=214(基本值)+25(5个烷基取代)+10(2个环外双键)+30(延长1个共轭双键)=287 nm b、COOCH3答:lmax=253(基本值)+25(5个烷基取代)+15(3个环外双键)+60(延长2个共轭双键)=353 nm (3)Oa、答:lmax=215(基本值)+10(1个烷基取代)+12(1个烷基取代)=237 nm Ob、答:lmax=215(基本值)+10(1个烷基取代)+24(2个烷基取代)+30(延长1个共轭双键)=249 nm (4)a、
6、COOCH3 CH2 O答:lmax=217(基本值)+30(1个环外双键)+30(延长1个共轭双键)=247 nmCOOHb、 答:lmax=217(基本值)+30(1个双-OR取代)=247 nm 5、异丙叉丙酮在3种溶剂中的np*跃迁的吸收波长如下:溶剂己烷乙醇水np*跃迁波长/nm329309305计算异丙叉丙酮在水中和乙醇中氢键强度。解:异丙叉丙酮在水中的氢键强度:E=NA*h*(c/水-c/己烷)=6.022*1023*6.626*10-34*3.0*108*109*(1/305-1/329)=28.6KJ/mol异丙叉丙酮在乙醇中的氢键强度:E=NA*h*(c/乙醇-c/己烷)
7、=6.022*1023*6.626*10-34*3.0*108*109*(1/309-1/329) =23.6KJ/mol习题:1. 频率(MHz)为4.47108的辐射,其波长数值 为(1)670.7nm(2)670.7(3)670.7cm (4)670.7m2. 紫外-可见光谱的产生是由外层价电子能级跃迁所致,其能级差的大小决定了(1)吸收峰的强度 (2)吸收峰的数目(3)吸收峰的位置 (4)吸收峰的形状3. 紫外光谱是带状光谱的原因是由于(1)紫外光能量大(2)波长短(3)电子能级差大(4)电子能级跃迁的同时伴随有振动及转动能级跃迁的原因4. 化合物中,下面哪一种跃迁所需的能量最高(1)
8、*(2)*(3)n*(4)n*5. *跃迁的吸收峰在下列哪种溶剂中测量,其最大吸收波长最大(1)水(2)甲醇 (3)乙醇 (4)正己烷6. 下列化合物中,在近紫外区(200400nm)无吸收的是(1)(2)(3) (4)7. 下列化合物,紫外吸收max值最大的是(1)(2) (3)(4)8. 计算波长为250nm、400nm的紫外光频率、波数及其所具有的能量(以eV和kJmol-1为单位表示)。9. 计算具有1.50eV和6.23eV能量光束的波长及波数。29. 下列化合物的紫外吸收光谱可能出现什么吸收带?(1)(2)(3)(4) 答案:1-7 A C D A A B B8. 20.1.210
9、15Hz,40103cm-1,4.96eV,114.6kcalmol-1;0.751015Hz,25103cm-1,3.10eV,71.6kcalmol-19 827nm,12.1103cm-1;200nm,50103cm-110(1)K,R(2)K,B,R(3)K,B(4)K,B,Rand performance test copies of the record. If necessary, review should be carried out; 4) for spring hangers (included simple spring, hangers and constant su
10、pport hangers) it should also be recognized as setting and locking of loads. 5) check the surface quality, folded layering and without cracks, rust and other defects. 5) after completion of the test and control drawing number one by one, by series baled. Color alloy steel parts, the parts marking in
11、stallation location and rotation about the direction you want. 7.3.14. hangers installation 7.3.14.1 hanger layout a. a clear design of hanger should be installed strictly in accordance with the drawings and designs shall not be installed wrong, missing, etc. B. own arrangement of piping support and
12、 hanger set and selection should be based on comprehensive analysis of general layout of piping systems; cold installation of steam pipe with particular attention reserved for compensation of thermal expansion displacement and orientation. C. support systems should be rational to withstand pipe load
13、s, static load and incidental load; reasonable piping displacement; guaranteed under various conditions, stress are within the allowed range. Strength, stiffness, and meet requirements to prevent vibration and soothing water, without affecting the adjacent equipment maintenance and other piping inst
14、allation and expansion. D. equipment connected to the interface to meet pipeline thrust (torque) limit requirements; increase the stability of piping systems to prevent pipeline . Tube wall thickness (mm) 2-3 4-6 7-10 weld form no slope mouth weld strengthening height h (mm) 1-1.5 1.5-2 weld width b (mm)
