“测定电源电动势和内阻”实验的误差分析
在中学物理实验室里,测定电源电动势和内阻的方法有多种,它们的测量原理都是闭合电路欧姆定律。几种测定方法的误差进行分析和比较如下:
1.电流表外接法
这是课本上的学生实验电路图,只要测出两组U、I的值,就能算出电动势和内阻。对电路的接法可以这样理解:因为要测电源的内阻,所以对电源来说用的是电流表外接法。
![](https://wkrtcs.bdimg.com/rtcs/image?w=197.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"197.00","h":"168.00","dataType":"png","c":"word/media/image1.png","imgOriW":197,"imgOriH":170})
图1
【分析方法1】计算法:
根据闭合电路欧姆定律,其测量的原理方程为:
![](https://wkrtcs.bdimg.com/rtcs/image?w=73.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"73.00","h":"19.00","dataType":"png","c":"word/media/image2.png","imgOriW":73,"imgOriH":19})
其中U、I分别是电压表和电流表的示数,通过调节滑动变阻器,改变路端电压和电流,这样就得到多组数据,每两组数据就可以求出电动势和内阻。设某两组U、I的值的大小关系为:U1>U2,I1<I2。
![](https://wkrtcs.bdimg.com/rtcs/image?w=83.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"83.00","h":"23.00","dataType":"png","c":"word/media/image3.png","imgOriW":84,"imgOriH":23})
![](https://wkrtcs.bdimg.com/rtcs/image?w=88.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"88.00","h":"23.00","dataType":"png","c":"word/media/image4.png","imgOriW":88,"imgOriH":23})
解得:![](https://wkrtcs.bdimg.com/rtcs/image?w=111.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"111.00","h":"47.00","dataType":"png","c":"word/media/image5.png","imgOriW":112,"imgOriH":47})
,
由于电压表的分流作用,电流表的示数I不是流过电源的电流I0,有I<I0,那么测得的电动势E和内阻r与真实值比较是偏大还是偏小呢
设电压表的内阻为RV,用E0表示电动势的真实值,r0表示内阻的真实值,则方程应修正为:
![](https://wkrtcs.bdimg.com/rtcs/image?w=144.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"144.00","h":"47.00","dataType":"png","c":"word/media/image7.png","imgOriW":144,"imgOriH":47})
![](https://wkrtcs.bdimg.com/rtcs/image?w=146.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"146.00","h":"47.00","dataType":"png","c":"word/media/image8.png","imgOriW":147,"imgOriH":47})
解得:![](https://wkrtcs.bdimg.com/rtcs/image?w=179.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"179.00","h":"68.00","dataType":"png","c":"word/media/image9.png","imgOriW":181,"imgOriH":68})
,
![](https://wkrtcs.bdimg.com/rtcs/image?w=172.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"172.00","h":"68.00","dataType":"png","c":"word/media/image10.png","imgOriW":172,"imgOriH":68})
可见电动势和内阻的测量值都小于真实值。
【分析方法2】图像法:
以上是定量计算分析,还可以利用电源的伏安特性曲线来定性分析。
![](https://wkrtcs.bdimg.com/rtcs/image?w=256.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"256.00","h":"222.00","dataType":"png","c":"word/media/image11.png","imgOriW":259,"imgOriH":222})
如图2所示,直线①是根据U、I的测量值所作出的U-I图线,由于I<I0,而且U越大,I和I0之间的误差就越大,而电压表的示数U就是电源的路端电压的真实值U0,除了读数会有误差外,可以认为U=U0,经过修正后,直线②就是电源真实值反映的伏安特性曲线,由图线可以很直观的看出E<E0,r<r0。
【分析方法3】等效法:
把电压表和电源等效为一新电源,如图1虚线框所示,这个等效电源的内阻r为r0和RV的并联电阻,也就是测量值,即
![](https://wkrtcs.bdimg.com/rtcs/image?w=78.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"78.00","h":"47.00","dataType":"png","c":"word/media/image12.png","imgOriW":79,"imgOriH":47})
![](https://wkrtcs.bdimg.com/rtcs/image?w=164.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"164.00","h":"68.00","dataType":"png","c":"word/media/image13.png","imgOriW":164,"imgOriH":68})
等效电源的电动势为电压表和电源组成回路的路端电压,也就是测量值,即
![](https://wkrtcs.bdimg.com/rtcs/image?w=95.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"95.00","h":"47.00","dataType":"png","c":"word/media/image14.png","imgOriW":95,"imgOriH":47})
![](https://wkrtcs.bdimg.com/rtcs/image?w=123.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"123.00","h":"47.00","dataType":"png","c":"word/media/image15.png","imgOriW":124,"imgOriH":47})
由以上分析还可以知道,要减小误差,所选择的电压表内阻应适当大些,使得![](https://wkrtcs.bdimg.com/rtcs/image?w=57.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"57.00","h":"24.00","dataType":"png","c":"word/media/image16.png","imgOriW":57,"imgOriH":24})
。
【实验方法拓展】
教科书上介绍了用电压表和电阻箱测电源电动势和内阻,电路如图3所示。
![](https://wkrtcs.bdimg.com/rtcs/image?w=168.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_5","w":"168.00","h":"139.00","dataType":"png","c":"word/media/image17.png","imgOriW":170,"imgOriH":140})
图3
调节R,测出两组U、R的值,就能算出电动势和内阻,其测量的原理方程为:
![](https://wkrtcs.bdimg.com/rtcs/image?w=85.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"85.00","h":"41.00","dataType":"png","c":"word/media/image18.png","imgOriW":85,"imgOriH":41})
其中U是电压表示数,R是电阻箱示数。这种方法产生的系统误差和图1是一样的,因为上式中的![](https://wkrtcs.bdimg.com/rtcs/image?w=20.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"20.00","h":"41.00","dataType":"png","c":"word/media/image19.png","imgOriW":20,"imgOriH":41})
就相当于图1中的电流表所测的流过变阻器的电流I,误差产生的原因还是由于电压表的分流,的值并不是流过电源的电流,而只是流过R的电流。所以最终测得的电动势和内阻的测量值也都小于真实值。
2.电流表内接法
既然以上方法都存在系统误差,那么将电流表接到如图4所示的位置,即对电源来说是电流表内接,这种接法行吗
![](https://wkrtcs.bdimg.com/rtcs/image?w=168.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"168.00","h":"201.00","dataType":"png","c":"word/media/image20.png","imgOriW":170,"imgOriH":201})
【分析方法1】计算法:
根据闭合电路欧姆定律,其测量的原理方程为:
![](https://wkrtcs.bdimg.com/rtcs/image?w=73.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"73.00","h":"19.00","dataType":"png","c":"word/media/image2.png","imgOriW":73,"imgOriH":19})
其中U、I还是电压表和电流表的示数,通过调节滑动变阻器,同样可以得到多组数据,每两组数据就可以求出电动势和内阻。设某两组U、I的值的大小关系为:U1>U2,I1<I2。
![](https://wkrtcs.bdimg.com/rtcs/image?w=83.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"83.00","h":"23.00","dataType":"png","c":"word/media/image3.png","imgOriW":84,"imgOriH":23})
![](https://wkrtcs.bdimg.com/rtcs/image?w=88.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"88.00","h":"23.00","dataType":"png","c":"word/media/image4.png","imgOriW":88,"imgOriH":23})
解得: ![](https://wkrtcs.bdimg.com/rtcs/image?w=111.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"111.00","h":"47.00","dataType":"png","c":"word/media/image5.png","imgOriW":112,"imgOriH":47})
,
由于电流表的分压,电压表的示数U不是电源的路端电压U0,有U<U0,设电流表的内阻为RA,用E0表示电动势的真实值,r0表示内阻的真实值,则方程应修正为:
![](https://wkrtcs.bdimg.com/rtcs/image?w=143.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"143.00","h":"24.00","dataType":"png","c":"word/media/image22.png","imgOriW":143,"imgOriH":24})
![](https://wkrtcs.bdimg.com/rtcs/image?w=146.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"146.00","h":"25.00","dataType":"png","c":"word/media/image23.png","imgOriW":147,"imgOriH":25})
解得: ![](https://wkrtcs.bdimg.com/rtcs/image?w=146.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"146.00","h":"47.00","dataType":"png","c":"word/media/image24.png","imgOriW":147,"imgOriH":47})
,
![](https://wkrtcs.bdimg.com/rtcs/image?w=304.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"304.00","h":"47.00","dataType":"png","c":"word/media/image25.png","imgOriW":304,"imgOriH":47})
可见电动势的测量值等于真实值,而内阻的测量值大于真实值。
【分析方法2】图像法:
以上是定量计算分析,也可以利用电源的伏安特性曲线来定性分析。
![](https://wkrtcs.bdimg.com/rtcs/image?w=256.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"256.00","h":"222.00","dataType":"png","c":"word/media/image26.png","imgOriW":259,"imgOriH":222})
如图5所示,直线①是根据U、I的测量值所作出的U-I图线,由于U<U0,而且I越大,U和U0之间的误差就越大,而电流表的示数I就是流过电源的电流的真实值I0,除了读数会有误差外,可以认为I=I0,经过修正后,直线②就是电源真实值反映的伏安特性曲线,由图线可以很直观的看出E=E0,r>r0。
【分析方法3】等效法:
把电流表和电源等效为一新电源,如图4虚线框所示,这个等效电源的内阻r为r0和RA的串联总电阻,也就是测量值,即
![](https://wkrtcs.bdimg.com/rtcs/image?w=103.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"103.00","h":"24.00","dataType":"png","c":"word/media/image28.png","imgOriW":103,"imgOriH":24})
等效电源的电动势为电流表和电源串联后的路端电压,也就是测量值,即
![](https://wkrtcs.bdimg.com/rtcs/image?w=49.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"49.00","h":"24.00","dataType":"png","c":"word/media/image29.png","imgOriW":49,"imgOriH":24})
由以上分析还可以知道,要减小误差,电流表的内阻需很小,使得![](https://wkrtcs.bdimg.com/rtcs/image?w=57.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"57.00","h":"23.00","dataType":"png","c":"word/media/image30.png","imgOriW":57,"imgOriH":23})
,这个要求在实验室测定干电池的内阻时是很难满足的。
【实验方法拓展】
教科书上介绍了用电流表和电阻箱测电源电动势和内阻,电路如图6所示。
![](https://wkrtcs.bdimg.com/rtcs/image?w=168.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"168.00","h":"136.00","dataType":"png","c":"word/media/image31.png","imgOriW":170,"imgOriH":137})
调节R,测出两组I、R的值,就能算出电动势和内阻,其测量的原理方程为:
![](https://wkrtcs.bdimg.com/rtcs/image?w=85.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"85.00","h":"21.00","dataType":"png","c":"word/media/image33.png","imgOriW":85,"imgOriH":21})
其中I是电流表示数,R是电阻箱示数。这种方法产生的系统误差和图4是一样的,因为上式中的![](https://wkrtcs.bdimg.com/rtcs/image?w=21.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"21.00","h":"17.00","dataType":"png","c":"word/media/image34.png","imgOriW":21,"imgOriH":17})
就相当于图4中的电压表所测的变阻器两端的电压U,误差产生的原因还是由于电流表的分压,的值并不是电源的路端电压,而只是R两端的电压。所以最终测得的电动势的测量值等于真实值,而内阻的测量值大于真实值。
虽然第二种实验方法电动势的测量值等于真实值,但由于电源本身内阻较小,而这种方法得到的内阻的测量值![](https://wkrtcs.bdimg.com/rtcs/image?w=111.00&md5sum=4e8270f1682f4cee0d0f3df98e91616f&sign=bc8214085a&rtcs_flag=1&rtcs_ver=4&l=webapp&bucketNum=535&ipr={"t":"img","r":"r_1","w":"111.00","h":"24.00","dataType":"png","c":"word/media/image35.png","imgOriW":112,"imgOriH":24})
,实验相对误差很大,所以综合考虑,还是采用第一种实验方法较好。
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