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在任一瞬间,沿任一回路循行方向,回路中各段电压的代数和恒等于零。

I 3. I 1. I 2. a. R 2. +. R 1. +. E 2. E 1. R 3. 2. 1. -. -. b. 1.6.2 基尔霍夫电压定律( KVL 定律 ). 1 . 定律. 在任一瞬间,从回路中任一点出发,沿回路循行一周,则在这个方向上电位升之和等于电位降之和。. 在任一瞬间,沿任一回路循行方向,回路中各段电压的代数和恒等于零。. 即:  U = 0. 对回路 1 :. E 1 = I 1 R 1 + I 3 R 3. 或 I 1 R 1 + I 3 R 3 – E 1 = 0.

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在任一瞬间,沿任一回路循行方向,回路中各段电压的代数和恒等于零。

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  1. I3 I1 I2 a R2 + R1 + E2 E1 R3 2 1 - - b 1.6.2基尔霍夫电压定律(KVL定律) 1.定律 在任一瞬间,从回路中任一点出发,沿回路循行一周,则在这个方向上电位升之和等于电位降之和。 在任一瞬间,沿任一回路循行方向,回路中各段电压的代数和恒等于零。 即:  U = 0 对回路1: E1 = I1 R1 +I3 R3 或 I1 R1 +I3 R3 –E1 = 0 对回路2: I2 R2+I3 R3=E2 或 I2 R2+I3 R3 –E2 = 0 基尔霍夫电压定律(KVL) 反映了电路中任一回路中各段电压间相互制约的关系。

  2. B + + – + – 1 E2 E1 UBE R2 R1 I2 _ E 注意: 1.列方程前标注回路循行方向; 2.应用 U = 0列方程时,项前符号的确定: 如果规定电位降取正号,则电位升就取负号。 3. 开口电压可按回路处理 对回路1: 电位升 = 电位降 E2 =UBE + I2R2  U = 0 I2R2 – E2 +UBE= 0

  3. a I1 I2 R1 R2 I6 c d R4 R3 I3 I4 b I – + E 例: 应用  U = 0列方程 对网孔abda: I6 R6 – I3 R3 +I1 R1 = 0 R6 对网孔acba: I2 R2 –I4 R4 – I6 R6 = 0 对网孔bcdb: I4 R4 + I3 R3 –E = 0 对回路 adbca,沿逆时针方向循行: – I1 R1 + I3 R3 + I4 R4 – I2 R2 = 0 对回路 cadc,沿逆时针方向循行: – I2 R2 – I1 R1 + E= 0

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