A 10 V battery is connected to a voltage divider circuit
which consists of a 100 Ω resistor and a 300 Ω resistor.
a What is the voltage across the 300 Ω resistor?
A 2.5 V
B 3.3 V
C 7.5 V
D 13.3 V

b) What is the voltage drop across the 100 Ω resistor?
A 2.5 V
B 3.3 V
C 7.5 V
D 13.3 V

First, we find the total resistance of the circuit. A voltage divider circuit is a series circuit. Therefore, its total resistance will be the sum of individual resistances:

[tex]R = R_{1}+R_{2}\\R = 100\ \Omega + 300\ \Omega\\R = 400\ \Omega\\[/tex]

a)

Now, we will apply the voltage divider rule on this circuit to find the voltage across the 300 Ω Resistor (R₂):

[tex]V_{2} = R_{2}\frac{V}{R}\\\\V_{2} = (300\ \Omega)\frac{10\ V}{400\ \Omega}\\\\[/tex]

V₂ = 7.5 V

Therefore, the correct option is:

C. 7.5 V

b)

Now, the voltage across the 100 Ω Resistor (R₁) will be:

[tex]V = V_{1}+V_{2}\\V_{1} = V-V_{2}\\V_{1} = 10\ V - 7.5\ V\\V_{1}=2.5\ V[/tex]

Therefore,the correct option is:

A. 2.5 V

A 10 V battery is connected to a voltage divider circuit which consists of a 100 Ω resistor and a 300 Ω resistor. a What is the voltage across the 300 Ω resistor? A 2.5 V B 3.3 V C 7.5 V D 13.3 V b) What is the voltage drop across the 100 Ω resistor? A 2.5 V B 3.3 V C 7.5 V D 13.3 V

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A 10 V battery is connected to a voltage divider circuit
which consists of a 100 Ω resistor and a 300 Ω resistor.
a What is the voltage across the 300 Ω resistor?
A 2.5 V
B 3.3 V
C 7.5 V
D 13.3 V

b) What is the voltage drop across the 100 Ω resistor?
A 2.5 V
B 3.3 V
C 7.5 V
D 13.3 V