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The ammeter shown in the figure below reads 1.51 A. Find I1, I2, and e m f. (Assume R = 6.95 Ω.)
I1 = A
I2 = A
e m f = V

The Ammeter Shown In The Figure Below Reads 151 A Find I1 I2 And E M F Assume R 695 Ω I1 A I2 A E M F V class=

Sagot :

MathPhys

Answer:

I₁ = 1.07 A

I₂ = 0.44 A

ε = 8.43 V

Explanation:

The currents and voltage can be found using Kirchhoff's circuit laws. The first law is the Current Law, which says that the sum of currents entering and leaving a node is zero. The second law is the Voltage Law, which says that the sum of voltage gains and drops around a loop is zero.

Applying the Current Law at the left node:

I₁ + I₂ = 1.51

Applying the Voltage Law about the top loop:

15.0 − 6.95 I₁ − (5.00) (1.51) = 0

Applying the Voltage Law about the bottom loop:

ε − 2.00 I₂ − (5.00) (1.51) = 0

We now have three equations and three variables. First solve the second equation for I₁.

15.0 − 6.95 I₁ − (5.00) (1.51) = 0

15.0 − 6.95 I₁ − 7.55 = 0

6.95 I₁ = 7.45

I₁ = 1.07 A

Now plug into the first equation to find I₂.

I₁ + I₂ = 1.51

1.07 + I₂ = 1.51

I₂ = 0.44 A

Finally, plug into the third equation to find ε.

ε − 2.00 I₂ − (5.00) (1.51) = 0

ε − 2.00 (0.44) − (5.00) (1.51) = 0

ε = 8.43 V

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