Use the exact values you enter to make later calculations.

The figure below shows a battery connected to a circuit. The potential difference across the battery and the resistance of each resistor is given in the figure. (Assume R₁ = 11.5 Ω, R₂ = 1.30 Ω, and V = 6.50 V.)

(a)

What is the equivalent resistance (in Ω) of R₁ and the 5.00 Ω resistor?

 in Ω

(b)

Using the result from part (a), what is the equivalent resistance (in Ω) of R₁, the 5.00 Ω resistor, and the 4.00 Ω resistor?

 in Ω

(c)

Using the result from part (b), what is the equivalent resistance (in Ω) of R₁, the 5.00 Ω resistor, the 4.00 Ω resistor, and the 3.00 Ω resistor?

 in Ω

(d)

Using the result from part (c), what is the equivalent resistance (in Ω) of the entire circuit?

 in Ω

(e)

What is the current (in A) through the battery (equivalently, the conventional current that exits the positive terminal of the battery and enters the R₂)?

in  A

(f)

What is the magnitude of the potential difference (in V) across R₂?

in  V

(g)

Using the result from part (f) and the battery's potential difference, what is the magnitude of the potential difference (in V) across the 3.00 Ω resistor?

 in V

(h)

What is the current (in A) in the 3.00 Ω resistor?

 in A

Transcribed Image Text:

Use the exact values you enter to make later calculations. The figure below shows a battery connected to a circuit. The potential difference across the battery and the resistance of each resistor is given in the figure. (Assume R, = 11.5 0, R, = 1.30 0, and V = 6.50 v.) 4.00 N 5.00 N W 3.00 N