Answer:
therefore, I = V/R = 6/4 = 1.5A which is total current.
Resistors of 2, 3 and 4 ohm are joined in parallel. This combination is joined with a battery of 24 volt.
Explanation:
From the above question,
They have given :
The combination of three resistors, 2 ohm, 3 ohm, and 4 ohm, connected in parallel results in a total resistance value of 1.33 ohms.
When these three resistors are connected to a 24 volt battery, the current flowing through each resistor will be 18.2 amperes.
This means that the voltage drop across the 2 ohm resistor will be 36.4 volts, while the voltage drop across the 4 ohm resistor will be 14.7 volts.
# Code to calculate the current flowing through a combination of resistors
def calculate_current(R1, R2, R3):
# Calculate the equivalent resistance
equivalent_resistance = 1/(1/R1 + 1/R2 + 1/R3)
# Calculate the current
current = 24/equivalent_resistance
# Print the result
print(f"The current flowing through the battery is {current}A.")
# Call the function with the resistors
calculate_current(2, 3, 4)
To calculate the current flowing through the battery in this combination.
For more such related questions : https://brainly.in/question/52210504
#SPJ3
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Verified answer
Answer:
therefore, I = V/R = 6/4 = 1.5A which is total current.
Answer:
Resistors of 2, 3 and 4 ohm are joined in parallel. This combination is joined with a battery of 24 volt.
Explanation:
From the above question,
They have given :
Resistors of 2, 3 and 4 ohm are joined in parallel. This combination is joined with a battery of 24 volt.
The combination of three resistors, 2 ohm, 3 ohm, and 4 ohm, connected in parallel results in a total resistance value of 1.33 ohms.
When these three resistors are connected to a 24 volt battery, the current flowing through each resistor will be 18.2 amperes.
This means that the voltage drop across the 2 ohm resistor will be 36.4 volts, while the voltage drop across the 4 ohm resistor will be 14.7 volts.
# Code to calculate the current flowing through a combination of resistors
def calculate_current(R1, R2, R3):
# Calculate the equivalent resistance
equivalent_resistance = 1/(1/R1 + 1/R2 + 1/R3)
# Calculate the current
current = 24/equivalent_resistance
# Print the result
print(f"The current flowing through the battery is {current}A.")
# Call the function with the resistors
calculate_current(2, 3, 4)
To calculate the current flowing through the battery in this combination.
For more such related questions : https://brainly.in/question/52210504
#SPJ3