资源描述
单击此处编辑母版标题样式,单击此处编辑母版文本样式,第二级,第三级,第四级,第五级,*,铁、铜及其化合物,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,2,、常温下可盛放浓硫酸的容器是(),A.Na B.Fe C.Zn D.Mg,3.,下列物质不能由单质通过化合反应得到的物质,是(),A.CuCl,2,B.FeCl,2,C.FeS D.Na,2,S,4.,下列物质跟铁反应后的生成物,能跟,KSCN,溶液,作用生成红色溶液的是(),A.,盐酸,B.,氯气,C.CuSO,4,溶液,D.,稀硫酸,B,B,B,A,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,5,、下列,4,种铁的化合物溶于稀盐酸后,滴加,KSCN,溶液没有颜色变化,再加氯水呈红色的是(),A.Fe(OH),3,B.Fe,2,O,3,C.FeCl,3,D.FeSO,4,D,6,、在空气中,不因氧化还原反应而变质的是(),A,、,Fe(OH),2,B,、,Na,2,O,2,C,、,NaOH,D,、,H,2,O,2,C,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,7,久置于空气中的下列物质,因被氧化而呈黄色,的是(),A.,浓,HNO,3,B.,氯化亚铁溶液,C.,溴苯,D.,溴化银,8,要除去,FeCl,2,溶液中的少量,FeCl,3,,,可行的办法是,A.,滴入,KSCN,溶液,B.,通入氯气,(),C.,加入铜粉,D.,加入铁粉,B,D,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,10,把铁、铜、,FeCl,3,、,FeCl,2,和,CuCl,2,溶液混在一起,,铁有剩余,则溶液中所含最多的阳离子是(),H,B.Cu,2,C,Fe,3,D.Fe,2,9,、要鉴定某溶液中所含的一种阳离子为,Fe,2+,(,且未被氧化),最好的方法是(),A,加人,NaOH,溶液,B,先加入,KSCN,溶液再加氯水,C,先加氯水再加,KSCN,溶液,D,加入锌片,B,D,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,B C,11,将,Na,2,O,2,投入,FeCl,3,溶液中,可观察到的现象,是(),A,生成白色沉淀,B,生成红褐色沉淀,C,有气泡产生,D,无变化,1,2,某运输用铁船,在水中行驶,最易生锈的,部位是(),A,水面上的船头部分,B,水面附近的船体部分,C,水面下的船底部分,D,各部分都一样速度生锈,B,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,【,考纲解读,】,1,、掌握,铁,的原子结构和化学性质,,以,Fe,2,、,Fe,3,的相互转化为例,,了解变价金属的氧化性和还原性,。,2,、了解,铁,的,氧化物和氢氧化物,的制备和性质,掌握,Fe,2,、,Fe,3,的检验方法,。,3,、了解,铜,及其重要化合物的性质,。,4,、了解金属冶炼的一般原理,了解,铁和铜,的冶炼方法,。,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,铁,原子结构示意图,在周期表中位置,第四周期第,VIII,族,属过渡元素,存在,游离态:少量存在于陨石中,化合态:赤铁矿、磁铁矿、黄铁矿等,单质,物理性质,化学性质,银白色,,=7.86g,cm,-3,,,熔点,1535,纯铁抗蚀能力较强,能被磁铁吸引和磁化,与非金属:,Cl,2,O,2、,S、I,2,与酸,:,非氧化性酸、,强氧化性酸(钝化),与盐,:,与水:,一,.,铁的原子结构、存在、性质,主要化合价:,+2,、,+3,3Fe+4H,2,O(g)=Fe,3,O,4,+4H,2,高温,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,Fe,反应后形成的产物呈何价态?,(1),氧化剂的氧化性强弱,.,强氧化剂,Fe,3,Fe,2,Fe,S,、,I,2,、,H,、,Cu,2,、,Fe,3,等,弱氧化剂,H,2,O(g),、,O,2,Fe,2,Fe,3,Cl,2,、,Br,2,、,热浓,H,2,SO,4,、,HNO,3,等,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,注意,:,钢铁发生电化腐蚀时,,Fe,参与电极反应的产物为,Fe,2,,,后与,OH,反应生成,Fe(OH),2,;,因其不稳定,又转变成,Fe(OH),3,失去部分水变成,Fe,2,O,3,nH,2,O.,(2),反应条件或反应物之间的量,Fe,HNO,3,(,浓,),钝化,Fe,4HNO,3,(,过量,),Fe(NO,3,),3,2H,2,O,NO,3Fe,(,过量,),8HNO,3,3Fe(NO,3,),2,4H,2,O,2NO,常温,要注意,Fe,2+,是,Fe,3+,和过量的,Fe,反应的产物。,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,(,3,)与水的反应,3Fe+4H,2,O,(,g,),Fe,3,O,4,+4H,2,高温,对比,2Na+2H,2,O=2NaOH+H,2,2Al+6H,2,O=2Al(OH),3,+3H,2,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,三、铁的重要化合物,1,、铁的氧化物,化,学,式,FeO,Fe,2,O,3,Fe,3,O,4,俗称,颜色、状态,铁的价态,水溶,性,稳定性,铁红,磁性氧化铁,黑色粉末,红棕色粉末,黑色晶体,+2,+3,+2,、,+3,都不溶于水,稳定,稳定,不稳定,在空气中加热迅速被氧化,6FeO,3O,2,2Fe,3,O,4,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,化,学,式,FeO,Fe,2,O,3,Fe,3,O,4,与非氧化性酸的反应,与氧化性酸的反应,用途,共性,FeO,2H,Fe,2,H,2,O,Fe,2,O,3,6H,2Fe,3,3H,2,O,Fe,3,O,4,8H,Fe,2,2Fe,3+,4H,2,O,碱性氧化物,碱性氧化物,复杂氧化物,3FeO,10HNO,3,(稀),3Fe(NO,3,),3,NO,5H,2,O,同上,3Fe,3,O,4,28HNO,3,(稀),9Fe(NO,3,),3,NO,14H,2,O,高温时,都能被,C,、,CO,、,H,2,、,Al,等还原剂还原,还原过程中铁的化合价都逐渐降低,最终生成铁。,油漆、涂料、炼铁原料,做磁铁、炼铁原料,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,2,、铁的氢氧化物,化学式,Fe(OH),2,Fe(OH),3,颜色状态,溶解性,稳定性,与非氧化性酸的反应,与氧化性酸的反应,转化关系,白色沉淀,红褐色沉淀,都难溶于水,很不稳定,易被氧化为,Fe(OH),3,2Fe(OH),3,=,Fe,2,O,3,3H,2,O,Fe(OH),3,3H,Fe,3,3H,2,O,Fe(OH),2,2H,Fe,2,2H,2,O,3Fe(OH),2,10HNO,3,(,稀,),3Fe(NO,3,),3,NO,8H,2,O,同上,4Fe(OH),2,O,2,2H,2,O,4 Fe(OH),3,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,制备原理:,思考:如何制取铁的氢氧化物?,由对应的,可溶性盐,与,可溶性碱,反应制取,实验一:,向盛有,FeCl,3,溶液的试管中滴加,NaOH,溶液,观察发生的现象。,实验二:,向,新制,FeSO,4,溶液中,滴入经,煮沸,的,NaOH,溶液,,胶头滴管尖端伸入溶液下面,,轻轻挤出,NaOH,溶液,观察发生的现象。,Fe,3,3OH,Fe(OH),3,(红褐色),Fe,2,2OH,Fe(OH),2,(白色),4Fe(OH),2,O,2,2H,2,O,4Fe(OH),3,灰白色,-,灰绿色,-,红褐色沉淀,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,思考:,1,、实验中为什么要用,新制,的硫酸亚铁溶液,?,2,、实验中为什么滴入,经煮沸,的,NaOH,溶液,?,3,、实验中为什么要将,滴管尖端插入试管里溶液底部,,慢慢挤出,NaOH,溶液,?,4,、还可以采用什么方法和措施以保证制得氢氧化亚铁,?,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,2,、用下面两种方法可以制得白色的,Fe(OH),2,沉淀。,方法一:用不含,Fe,3,的,FeSO,4,溶液与不含,O,2,的蒸馏水配制的,NaOH,溶液反应制备。,(,1,)用硫酸亚铁晶体配制上述,FeSO,4,溶液时还需加入,。,(,2,)除去蒸馏水中溶解的,O,2,常采用,的方法。,(,3,)生成白色,Fe(OH),2,沉淀的操作是用长滴管吸取不含,O,2,的,NaOH,溶液,插入,FeSO,4,溶液液面下,再挤出,NaOH,溶液。这样操作的理由是,:,。,练习,稀,H,2,SO,4,和铁屑,煮沸,避免生成的,Fe(OH),2,沉淀接触,O,2,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,方法二:在如图装置中,用,NaOH,溶液、,铁屑、稀,H,2,SO,4,等试剂制备。,(,1,)在试管,里加入的试剂,是,。,(,2,)在试管,里加入的试剂是,。,(,3,)为了制得白色,Fe(OH),2,沉淀,在试管,和,中加入试剂,打开止水夹,塞紧塞子后的实验步骤是:,。,(,4,)这样生成的,Fe(OH),2,沉淀能较长时间保持白色,其理由是:,。,稀,H,2,SO,4,和铁屑,NaOH,溶液,检验试管,出口处排出的氢气的纯度。当排出的,H,2,纯净时,再夹紧止水夹,试管,中反应生成的,H,2,充满了试管,和试管,,且外界空气不容易进入。,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,小结:,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,3,、亚铁盐和铁盐,(,1,)亚铁盐的性质,Fe,2,的溶液通常显,浅绿色,,主要表现,还原性,。,亚铁盐溶液在空气中易被,O,2,氧化而变质,故保存时要加少量,铁屑,,,防止其氧化,,加,少量相应的酸,,抑制水解,。,亚铁盐溶液与可溶性碱反应,生成,Fe(OH),2,。,2Fe,2,H,2,O,2,2H,2Fe,3,2H,2,O,3Fe,2,NO,3,4H,3Fe,3,NO,2H,2,O,3Fe,2,2NH,3,H,2,O,3Fe(OH),2,2NH,4,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,(,2,)铁盐的性质,Fe,3,的溶液通常显,棕黄色,,主要表现,氧化性,。,因,Fe,3,易水解,,FeCl,3,等固体还易潮解,故其固体应密封保存。配制溶液时应将铁,盐溶于少量相应的酸,中,,再加水稀释,,以,抑制其水解,。,铁盐溶液与,KSCN,溶液反应,溶液变成红色。,2Fe,3,Cu,2Fe,2,Cu,2,2Fe,3,H,2,S,2Fe,2,S,2H,2Fe,3,2I,2Fe,2,I,2,2Fe,3,3SCN,Fe,(,SCN,),3,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,四、如何实现,Fe,、,Fe,2,和,Fe,3,之间的相互转化?,铁,三角,Fe,Fe,2+,Fe,3+,1,2,3,4,5,6,弱氧化剂:,H,+,、,Cu,2+,、,S,、,I,2,、,Fe,3+,等,强氧化剂:,Cl,2,、,Br,2,、,HNO,3,等,Cl,2,、,Br,2,、,HNO,3,、,O,2,等,Zn,、,Fe,、,Cu,、,HI,等,Zn,、,H,2,、,Al,、,C,等,Zn,、,CO,、,Al,等,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,1,、,Fe Fe,2,弱氧化剂:,H,、,Cu,2,、,S,、,I,2,、,Fe,3,等,Fe,2H,Fe,2,H,2,Fe,Cu,2,Fe,2,Cu,Fe+S,=,FeS,Fe,I,2,FeI,2,Fe,2Fe,3,3Fe,2,2、Fe Fe,3+,强氧化剂:,Cl,2,、,Br,2,、,KMnO,4,、,HNO,3,等,2Fe+3Cl,2,=2FeCl,3,2Fe+3Br,2,=2FeBr,3,Fe+4HNO,3,(稀)=Fe(NO,3,),3,+NO,+2H,2,O,2Fe+6H,2,SO,4,(浓)=Fe,2,(SO,4,),3,+3SO,2,+6H,2,O,5Fe+3MnO,4,-,+24H,+,=5Fe,3+,+3Mn,2+,+12H,2,O,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,Zn,、,Fe,、,Cu,、,H,2,S,、,HI,、,SO,2,4,、,Fe,3+,Fe,2+,3,、,Fe,2+,Fe,3+,Cl,2,、,Br,2,、,KMnO,4,、,HNO,3,、,O,2,等,2Fe,2+,+Cl,2,=2Fe,3+,+2Cl,-,2Fe,2+,+Br,2,=2Fe,3+,+2Br,-,5Fe,2+,+MnO,4,-,+8H,+,=5Fe,3+,+Mn,2+,+4H,2,O,3Fe,2+,+4H,+,+NO,3,-,=Fe,3+,+NO,+2H,2,O,2Fe,3+,+Zn,(不足),=2Fe,2+,+Zn,2+,2Fe,3+,+Cu=2Fe,2+,+Cu,2+,2Fe,3+,+H,2,S=2Fe,2+,+2H,+,+S,2Fe,3+,+2HI=2Fe,2+,+2H,+,+I,2,2Fe,3+,+SO,2,+2H,2,O=2Fe,2+,+4H,+,+S,O,4,2-,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,5,、,Fe,2+,Fe,Zn,、,H,2,、,Al,、,C,、,CO,等,Fe,2+,+Zn,=,Fe+Zn,2+,FeO+H,2,=,Fe+H,2,O,3FeO+2Al,=,3Fe+Al,2,O,3,2,FeO+C,=,Fe+CO,2,高温,高温,高温,6,、,Fe,3+,Fe,Zn,、,CO,、,Al,等,2Fe,3+,+3Zn(,过量,)=,2Fe+3Zn,2+,Fe,2,O,3,+3CO,=,2Fe+3CO,2,Fe,2,O,3,+2Al,=,2Fe+Al,2,O,3,高温,高温,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,五、,Fe,2,和,Fe,3,的检验方法,鉴 别方 法,Fe,2,Fe,3,直 接 观 色,显色反应,与,KSCN,与,苯 酚,利用,Fe,3+,的,氧化性,利用沉淀反应,与,OH,作用,浅 绿 色,棕 黄 色,血红色,不显紫色,显 紫 色,无明显现象,Cu,被腐蚀,溶液变绿色,与 铜 片,与,淀粉,KI,试纸,试纸不变蓝,试纸变蓝色,白色沉淀迅速变灰,绿色最后呈红褐色,立即产生红褐色沉淀,不显红色。,若再通,Cl,2,,,则变血红色,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,六、铁的冶炼,原料,:,设备,:,炼铁高炉(简称高炉),原理:,用还原剂将铁矿石中铁元素还原为单质,铁矿石、焦碳、空气、,石灰石,等,反应:,C,O,2,CO,2,(,放出大量的热),点燃,CO,2,C,CO,(,制备还原剂),高温,CO,Fe,2,O,3,Fe,CO,2,高温,CaCO,3,CaO,CO,2,高温,SiO,2,CaO,CaSiO,3,(,炉渣的主要成分,),高温,产品:,生铁(含碳,2%-4.5%,),Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,七、铜的性质,1,、铜元素的存在形式:,化合态和游离态,。,铜:,黄铜矿(,CuFeS,2,),孔雀石,Cu,2,(OH),2,CO,3,2,、铜的物理性质和用途,.,纯铜呈,紫红色,;,粉末也是紫红色,.,熔点,1083.4,沸点,2567;,.,密度,8.92g/cm,3,;质软;,.,具有良好的延展性,;,.,具有良好的导热、导电性,;,纯铜的导电性仅次于银,但比银便宜得多,所以当今世界一半以上的铜用于电力和电讯工业上。,用途:广泛用于电气工业;制铜合金;作微量元素肥料;作各种仪表的零件,1g,纯铜可拉成,3000m,细铜丝或压延成面积为,10m,2,几乎透明的铜箔,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,3,、铜的化学性质,2Cu,4HCl,O,2,2CuCl,2,2H,2,O,与氧气的反应,Cu,O,2,2CuO,2Cu,O,2,H,2,O,CO,2,Cu,2,(OH),2,CO,3,与其他非金属的反应,Cu,Cl,2,CuCl,2,点燃,现象:,棕黄色,的烟,2Cu,S,Cu,2,S,(,黑色物质,),通入,O,2,时与盐酸、硫酸反应,铜锈,(,铜绿,),Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,与氧化性酸反应:,Cu,2H,2,SO,4(,浓,),CuSO,4,SO,2,2H,2,O,Cu,4HNO,3(,浓,),Cu(NO,3,),2,2NO,2,2H,2,O,3Cu,8HNO,3(,浓,),3Cu(NO,3,),2,2NO,4H,2,O,与盐溶液的反应,Cu,2AgNO,3,Cu,(,NO,3,),2,2Ag,Cu,2FeCl,3,CuCl,2,2FeCl,2,制印刷电路板,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,八、氧化铜和氢氧化铜的性质,物质,氧化铜(,CuO,),氢氧化铜,Cu(OH),2,状态,化学性质,制法,转化,不溶于水的黑色固体,不溶于水的蓝色固体,CuO+2H,+,=Cu,2+,+H,2,O,Cu(OH),2,+2H,+,=Cu,2+,+2H,2,O,CuO+CO,=Cu+CO,2,CuO+H,2,=Cu+H,2,O,Cu(OH),2,=CuO+H,2,O,Cu(OH),2,+4NH,3,H,2,O=,Cu(NH,3,),4,(OH),2,+4H,2,O,Cu(OH),2,=CuO+H,2,O,Cu,2+,+2OH,=Cu(OH),2,Cu,2+,+2OH,=Cu(OH),2,CuO+2H,=Cu,2,+H,2,O,注意:,(1),溶液中的,Cu,2+,常为蓝色(浓,CuCl,2,为绿色,稀,CuCl,2,为蓝色),可作为,Cu,2+,的判断依据。,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,(2)Cu,2+,与碱反应生成蓝色沉淀,Cu(OH),2,,,Cu(OH),2,溶于氨水形成深蓝色溶液,这是鉴定,Cu,2+,的原理之一。无水,CuSO,4,遇水变为蓝色,生成,CuSO,4,5H,2,O,,可作为水的检验依据。,(3)Cu,2,O,一种红色粉末,在非氧化性酸溶液中发生歧化反应:是与碱反应生成蓝色沉淀,Cu,2,O,2H,Cu,Cu,2,H,2,O,。,Cu,2,S,、,CuS,均为黑色粉末,难溶于水和非氧化性酸,能被硝酸等氧化性酸溶解。,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,九、铜的冶炼,湿法炼铜(古代):,Fe,CuSO,4,Fe,2,Cu,粗铜,电解,精铜,(含量,99.95%,99.98%,),Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,例,4.,氧化铜有多种用途,如用作玻璃着色剂、油类脱硫剂等。为获得纯净的氧化铜以探究其性质,某同学用工业硫酸铜,(,含硫酸亚铁等杂质,),进行如下实验:,制备氧化铜,步骤,I,的目的是除不溶性杂质。操作是,。,步骤,的目的是除铁。操作是:滴加,H,2,O,2,溶液,稍加热;当,Fe,2+,转化完全后,慢慢加入,Cu,2,(OH),2,CO,3,粉末,搅拌,以控制溶液,pH=3.5,;加热煮沸一段时间,过滤,用稀硫酸酸化滤液至,pH=1,。控制溶液,pH=3.5,的原因是,。,加适量水溶解,搅拌,过滤,使,Fe,3+,可全部转化为,Fe(OH),3,沉淀,而,Cu,2+,不会转化为,Cu(OH),2,沉淀。,工业,CuSO,4,CuSO,4,溶液,CuSO,4,5H,2,O,CuO,I,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,步骤,的目的是得到,CuSO,4,5H,2,O,晶体。操作是,,过滤,水浴加热烘干。水浴加热的特点是,。,蒸发浓缩、冷却结晶,受热均匀,温度易于控制在,100,以下。,探究氧化铜的性质,取,A,、,B,两支试管,往,A,中先加入适量,CuO,粉末,再分别向,A,和,B,中加入等体积的,3%H,2,O,2,溶液,只观察到,A,中有大量气泡。结论是,。,为探究试管,A,中反应的速率,收集气体并测定其体积必需的实验仪器有:,。,CuO,可加快,H,2,O,2,分解的反应速率,是,H,2,O,2,分解反应的催化剂。,秒表、橡皮塞、导管、集气瓶、量筒。,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,9,(,08,广东卷),铜在自然界存在于多种矿石中,如:,矿石名称,黄铜矿,斑铜矿,辉铜矿,孔雀石,主要成分,CuFeS,2,Cu,5,FeS,4,Cu,2,S,CuCO,3,Cu(OH),2,请回答下列问题:,(1,)上表所列铜化合物中,铜的质量百分含量最高的是,。,(2,)工业上以黄铜矿为原料。采用火法溶炼工艺生产铜。该工艺的中间过程会发生反应,反应的氧化剂是,。,2Cu,2,O+Cu,2,S,6Cu+SO,2,高温,(3,),SO,2,尾气直接排放到大气中造成环境污染的后果是,;处理该尾气可得到有价值的化学品,写出其中,1,种酸和,1,种盐的名称,。,(4,)黄铜矿熔炼后得到的粗铜含少量,Fe,、,Ag,、,Au,等金属杂质,需进一步采用电解法精制。请简述粗铜电解得到精铜的大批量:,。,Cu,2,S,Cu,2,O,,,Cu,2,S,硫酸,硫酸铵,SO,2,尾气直接排放到大气中造成环境污染的后果是形成酸雨。,电解池中,粗铜作阳极,精铜作阴极,电解质为硫酸铜溶液。阳极上发生氧化反应,,Cu,失去电子,使,Cu,单质变为,Cu,2+,进入溶液中,Cu,e,=Cu,2+,;阴极上发生还原反应,,Cu,2+,得到电子在阴极上析出,Cu,单质,,Cu,2+,+e,=Cu,,从而达到精制,Cu,的目的。,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,(5,)下表中,对陈述,、,的正确性及其有无因果关系的判断都正确的是,填字母)。,选项,陈述,陈述,判断,A,铜绿的主成分是碱酸铜,可用稀盐酸除铜器表面的铜绿,对;,对;有,B,铜表易形成致密的氧化膜,铜容器可以盛放浓硫酸,对;,对;有,C,铁比铜活泼,例在铜板上的铁钉在潮湿空气中不易生锈,对;,对;有,D,蓝色硫酸铜晶体受热转化为白色硫酸铜粉末是物理变化,硫酸铜溶液可用作游泳池的消毒剂,错;,对;无,A,D,Evaluation only.,Created with Aspose.Slides for.NET 3.5 Client Profile 5.2.0.0.,Copyright 2004-2011 Aspose Pty Ltd.,
展开阅读全文