In the given circuit, the voltage across load resistance is:
- A
- B
- C
- D
In the given circuit, the voltage across load resistance is:
Correct answer:A
Standard Method
Given: , , source voltage , diode drops and .
Find: Voltage across load resistance .
Both diodes are forward biased, so their total voltage drop is subtracted from the source voltage.
The total resistance in the resistive part is
Using Ohm's law, the circuit current is
Now the voltage across the load resistance is
Therefore, the voltage across the load resistance is . The correct option is A.
KVL-Based Detailed Solution
Given: A series circuit with a source, a germanium diode with drop , a silicon diode with drop , a resistor , and load resistance .
Find: Voltage across .
Apply Kirchhoff's voltage law to the loop:
First calculate the total diode drop:
So the voltage across the resistors is
Now calculate total resistance:
Hence current in the series circuit is
Voltage across the load resistance becomes
Therefore, the voltage across the load resistance is .
Subtracting only one diode drop from the source voltage is incorrect because both forward-biased diodes contribute to the total drop. Add and before finding the resistor voltage.
Using only to calculate the circuit current is wrong because the current flows through the entire series resistance. First use to find the current, then use that current to find the voltage across .
Mixing and carelessly can produce an incorrect current. Convert consistently, for example , before applying Ohm's law.
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