D. Parallel circuit as a current divider A R1 R2 For the circuit shown above use Kircho's laws to compute the current Il across R1 and I2 across resistance R2, each as function of only R1, R2 and total current I and write it below Il ; 12 ...... Now choose R1 and R2 such that the ratio of voltage I1/I2 is 10. R1 =........... ;R2 = ...... ...

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D. Parallel circuit as a current divider
A
V,
R1
R2
For the circuit shown above use Kircho's laws to compute the
current Il across R1 and I2 across resistance
R2, each as function of only R1, R2 and total current I and write it
below
Il
; 12 =.
Now choose R1 and R2 such that the ratio of voltage I1/I2 is 10.
R1
; R2 =
Now build the circuit and compare the theoretical value with the
measured value.
experimental
(I1/I2) theoretical= 10; (I1/I2)
Be careful about how you connect the multimeter to measure the
current. Show the measured current ratio to the teaching assistant
for credit.
Transcribed Image Text:D. Parallel circuit as a current divider A V, R1 R2 For the circuit shown above use Kircho's laws to compute the current Il across R1 and I2 across resistance R2, each as function of only R1, R2 and total current I and write it below Il ; 12 =. Now choose R1 and R2 such that the ratio of voltage I1/I2 is 10. R1 ; R2 = Now build the circuit and compare the theoretical value with the measured value. experimental (I1/I2) theoretical= 10; (I1/I2) Be careful about how you connect the multimeter to measure the current. Show the measured current ratio to the teaching assistant for credit.
Resistor Color Table
62 Ω +5%
1st Digit
2nd Digit
Multiplier
Tolerance
x 10
х 10 0
x 100 Q
x 1 KQ
х 10 KQ
|x 100 КО
x 1 MQ
+ 1%
t 2%
1
1
3
4
7
± 5%
+ 10%
8
8.
х0.1 Q
x 0.01 Q
Figure 1. Resistor color table
Transcribed Image Text:Resistor Color Table 62 Ω +5% 1st Digit 2nd Digit Multiplier Tolerance x 10 х 10 0 x 100 Q x 1 KQ х 10 KQ |x 100 КО x 1 MQ + 1% t 2% 1 1 3 4 7 ± 5% + 10% 8 8. х0.1 Q x 0.01 Q Figure 1. Resistor color table
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