Consider the circuit shown in the figure below, where R, - 5.00 0, R2 = 8.00 0, and ɛ = 6.00 V. 10.0 0 R: 5,00 0 2.00 0 R, (a) Find the voltage (in V) across R,. 5.96 Find the equivalent resistance in the circuit by applying the equations for resistances in series and parallel, and use your result and Ohm's law to determine the total current in the circuit. You can use this value to calculate the potential drop across the 2.00-N resistor, and from this, find the voltage across R1. V (b) Find the current (in A) in r,. 1.19 Use Ohm's law and your result from part (a) to determine the current through R1. A

Consider the circuit shown in the figure below, where R, - 5.00 0, R2 = 8.00 0, and ɛ = 6.00 V. 10.0 0 R: 5,00 0 2.00 0 R, (a) Find the voltage (in V) across R,. 5.96 Find the equivalent resistance in the circuit by applying the equations for resistances in series and parallel, and use your result and Ohm's law to determine the total current in the circuit. You can use this value to calculate the potential drop across the 2.00-N resistor, and from this, find the voltage across R1. V (b) Find the current (in A) in r,. 1.19 Use Ohm's law and your result from part (a) to determine the current through R1. A

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Question

Consider the circuit shown in the figure below, where r, = 5.00 0, R, = 8.00 0, and
ɛ = 6.00 V.
10.0 0
R2
5.00 0
2.00 0
R
(a) Find the voltage (in V) across R,.
5.96
Find the equivalent resistance in the circuit by applying the equations for
resistances in series and parallel, and use your result and Ohm's law to
determine the total current in the circuit. You can use this value to calculate
the potential drop across the 2.00-N resistor, and from this, find the voltage
across R1. V
(b) Find the current (in A) in r,.
1.19
Use Ohm's law and your result from part (a) to determine the current
through R1. A

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