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A battery of e.m.f. 16 V and internal resistance 2 Ω is connected to two resistors 3 Ω and 6 Ω connected in parallel. Find (a) the current through the battery (b) p.d. between the terminals of the battery (c) the current in 3 Ω resistor (d) the current in 6 Ω resistor.

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Answer

(a) Given,

e.m.f. = 16 V

internal resistance r = 2 Ω

current through battery = ?

If Rp is the equivalent resistance of resistors 3 Ω and 6 Ω connected in parallel, then

1Rp=13+161Rp=2+161Rp=361Rp=12Rp=2Ω\dfrac{1}{Rp} = \dfrac{1}{3} + \dfrac{1}{6} \\[0.5em] \dfrac{1}{Rp} = \dfrac{2 + 1}{6} \\[0.5em] \dfrac{1}{Rp} = \dfrac{3}{6} \\[0.5em] \dfrac{1}{Rp} = \dfrac{1}{2} \\[0.5em] \Rightarrow R_p = 2 Ω

From relation,

ε = I (R + r)

Substituting the value in the formula above we get,

16 = I(2 + 2)
⇒ 16 = I x 4 ⇒ I = 16 / 4 = 4 A

Hence, current through the battery = 4 A

(b) Potential difference between the terminals of the battery = ?

Using Ohm's law

V = IR

R = 2 Ω

I = 4 A

Substituting the values in the formula above we get,

V = 4 x 2 = 8 V

Hence, potential difference between the terminals of the battery = 8 V

(c) Current in 3 Ω resistor = ?

Using Ohm's law

V = IR

R = 3 Ω

V = 8 V

I = ?

Substituting the values in the formula above we get,

8=I×3I=83I=2.66A8 = I × 3 \\[0.5em] I = \dfrac{8}{3} \\[0.5em] \Rightarrow I = 2.66 A

Hence, current in 3 Ω resistor is 2.66 A

(d) Current in 6 Ω resistor = ?

Using Ohm's law

V = IR

R = 6 Ω

V = 8 V

I = ?

Substituting the values in the formula above we get,

8 = I × 6
⇒ I = 8 / 6 = 1.333 A

Hence, current in 6 Ω resistor is 1.34 A

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