Each of three resistors in figure has a resistance of 2.4Ω and can dissipate a maximum of 36 W without becoming excessively heated. What is the maximum power the circuit can dissipate?
Sahay Sir > Question Answers > Each of three resistors in figure has a resistance of 2.4Ω and can dissipate a maximum of 36 W without becoming excessively heated. What is the maximum power the circuit can dissipate?
A storage battery with emfE=2.6V loaded with an external resistance produces a current I=1.0A. In this case the potential difference between the terminals of the storage battery equals V=2.0V. Find teh thermal power generated in the battery and the power develop in it electric forces.
18
Nov
A storage battery with emfE=2.6V loaded with an external resistance produces a current I=1.0A. In this case the potential difference between the terminals of the storage battery equals V=2.0V. Find teh thermal power generated in the battery and the power develop in it electric forces. Each of three resistors in figure has a resistance of [...]
Each of three resistors in figure has a resistance of 2.4Ω and can dissipate a maximum of 36 W without becoming excessively heated. What is the maximum power the circuit can dissipate?
18
Nov
Each of three resistors in figure has a resistance of 2.4Ω and can dissipate a maximum of 36 W without becoming excessively heated. What is the maximum power the circuit can dissipate? Each of three resistors in figure has a resistance of 2.4Ω and can dissipate a maximum of 36 W without becoming excessively heated. [...]