磁场分布测量实验目的:(1)学习电磁感应发测磁场的原理(2)学习用探测线圈测量载流线圈的磁场的方法(3)验证矢量叠加原理(4)了解亥姆霍兹线圈磁场的特点实验原理:导线中通以变化电流时,周围空间产生变化磁场,处于其中的闭合回路将会有感应电动势产生,通过测量此电动势大小就可以计算出磁场的量值。mV当沟通数字电压标内阻远大于探测线圈的电阻时,其读数 U 有:n即可得:T实验步骤:(1)分别测量两个单个圆线圈通电流时沿轴线方向的磁场分布,并测出轴外 M 点的磁感应强度的大小和方向。按矢量叠加原理算出合磁场。再将两个圆线圈串接起来,测量沿轴线上各点的磁场分布,并测出轴外 M 点的磁场大小和方向。(2)测量亥姆霍兹线圈轴线附近的磁场分布情况。除已测得的轴上各点的磁场外,再在轴线中点附近两侧各测若干点的磁感应强度大小和方向。(3)线圈 I 单独通电时,测量线圈平面内中心 O 点和边缘 Q 点的磁感应强度的大小和方向。数据处理:探测线圈 N=4200 Rs=2.86 Rs I=14.31mV d0=1.20cm f=400Hzx=0.01源线圈 R=10.9cm N0=500I 通电II 通电I、II 串联Umax/mVB/mTUmaxBUmaxB07.50.0130481.970.00342710.290.01899817.40.0128742.370.00412311.260.01958927.10.0123522.860.00497611.470.01995436.610.0114993.40.00591511.560.02025146.040.0105084.020.00699411.640.0202555.340.0092924.70.008177111.650.020268264.70.0081775.40.00939411.670.020302740.0069596.050.01052511.690.02033783.540.0061596.620.01151711.740.02042492.930.0050977.120.01238711.620.020255102.440.0042457.460.01297811.40.019833111.960.0034117.60.01322211.020.019172M8.830.015362223.230.0055673012.070.0209988亥姆霍兹线圈磁场分布(中心为点 6,标值为探测线圈电压 mV):11.6911.7111.7011.6811.6711.70单线圈通电时磁场与理论值对比(B 单位为 T)x(cm)I 线圈偏差%I 线圈通电时理论值II 线圈通电时II 线圈偏差%09.4593254221.30478E-051.4411E-051.32218E-058.25211642819.5363116471.28739E-051.4231E-051.29782E-058.80282228229.9234146491.23519E-051.37127E-051.23867E-059.669677789310.966862011.14995E-051.2916E-051.15169E-0510.8321674411.8701421.05078E-051.19231E-051.05252E-0511.72423164514.152459939.29005E-061.08216E-059.39443E-0613.18788082615.608376348.17664E-069.68892E-068...
