A battery with an emf of 12.0 V shows a terminal voltage of 11.7 V when operating in a circuit with two lightbulbs, each rated at 4.0 W (at 12.0 V), which are connected in parallel.What is the battery's internal resistance?

Answers

Answer 1

Answer:

0.46Ω

Explanation:

The electromotive force (E) in the circuit is related to the terminal voltage(V), of the circuit and the internal resistance (r) of the battery as follows;

E = V + Ir --------------------(a)

Where;

I = current flowing through the circuit

But;

V = I x Rₓ ---------------------(b)

Where;

Rₓ = effective or total resistance in the circuit.

First, let's calculate the effective resistance in the circuit:

The effective resistance (Rₓ) in the circuit is the one due to the resistances in the two lightbulbs.

Let;

R₁ = resistance in the first bulb

R₂ = resistance in the second bulb

Since the two bulbs are both rated at 4.0W ( at 12.0V), their resistance values (R₁ and R₂) are the same and will be given by the power formula;

P = $(V^(2) )/(R)$

=> R = $(V^(2) )/(P)$ -------------------(ii)

Where;

P = Power of the bulb

V = voltage across the bulb

R = resistance of the bulb

To get R₁, equation (ii) can be written as;

R₁ = $(V^(2) )/(P)$ --------------------------------(iii)

Where;

V = 12.0V

P = 4.0W

Substitute these values into equation (iii) as follows;

R₁ = $(12.0^(2) )/(4)$

R₁ = $(144)/(4)$

R₁ = 36Ω

Following the same approach, to get R₂, equation (ii) can be written as;

R₂ = $(V^(2) )/(P)$ --------------------------------(iv)

Where;

V = 12.0V

P = 4.0W

Substitute these values into equation (iv) as follows;

R₂ = $(12.0^(2) )/(4)$

R₂ = $(144)/(4)$

R₂ = 36Ω

Now, since the bulbs are connected in parallel, the effective resistance (Rₓ) is given by;

$(1)/(R_(X) )$ = $(1)/(R_1)$ + $(1)/(R_2)$ -----------------(v)

Substitute the values of R₁ and R₂ into equation (v) as follows;

$(1)/(R_X)$ = $(1)/(36)$ + $(1)/(36)$

$(1)/(R_X)$ = $(2)/(36)$

Rₓ = $(36)/(2)$

Rₓ = 18Ω

The effective resistance (Rₓ) is therefore, 18Ω

Now calculate the current I, flowing in the circuit:

Substitute the values of V = 11.7V and Rₓ = 18Ω into equation (b) as follows;

11.7 = I x 18

I = $(11.7)/(18)$

I = 0.65A

Now calculate the battery's internal resistance:

Substitute the values of E = 12.0, V = 11.7V and I = 0.65A into equation (a) as follows;

12.0 = 11.7 + 0.65r

0.65r = 12.0 - 11.7

0.65r = 0.3

r = $(0.3)/(0.65)$

r = 0.46Ω

Therefore, the internal resistance of the battery is 0.46Ω

Answer 2

Answer:

Answer:

$R_i_n_t=0.45 \Omega$

Explanation:

Internal resistance is a concept that helps model the electrical consequences of the complex chemical reactions that occur within a battery. When a charge is applied to a battery, the internal resistance can be calculated using the following equation:

$R_i_n_t=((V_N_L)/(V_F_L) -1)R_L$

Where:

$V_F_L=Load\hspace{3}voltage=11.7V\nV_N_L= O pen\hspace{3}circuit\hspace{3}voltage=12V\nR_L=Load\hspace{3}resistance$

As you can see, we don't know the exactly value of the $R_L$ . However we can calculated that value using the next simple operations:

The problem tell us that the power of each lightbulb is 4.0 W at 12.0 V, hence let's calculated the power at 11.7V using Cross-multiplication:

$(12)/(11.7) =(4)/(P)$

Solving for $P$ :

$P=(11.7*4)/(12) =3.9W$

Now, the electric power is given by:

$P=(V^2)/(R_b)$

Where:

$R_b=Resistance\hspace{3}of\hspace{3}each\hspace{3}lightbulb$

So:

$R_b=(V^2)/(P) =(11.7^2)/(3.9) =35.1\Omega$

Now, because of the lightbulbs are connected in parallel the equivalent resistance is given by:

$(1)/(R_L) =(1)/(R_b) +(1)/(R_b) =(2)/(R_b) \n\n R_L= (R_b)/(2) =(35.1)/(2)=17.55\Omega$

Finally, now we have all the data, let's replace it into the internal resistance equation:

$R_i_n_t=((12)/(11.7) -1)17.55=0.45\Omega$

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Answers

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Answers

The question is incomplete. Here is the complete question.

Lightning bolts can carry currents up to approximately 20kA. We can model such a current as the equivalent of a very long, straight wire.

(a) If you were unfortunate enough to be 5.5m away from such a lightning bolt, how large a magnetic field would you experience?

(b) How does this field compare to one you would experience by being 5.5cm from a long, straight household current of 5A?

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where:

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The magnitude of magnetic field in a lightning bolt is 7.27 x 10⁻⁴ T

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