4) Many resistors are connected purely in parallel to a 17 battery and the power output of the battery is 172 Watts. One resistor is removed (but the rest remain connected in parallel to the same battery) and the current coming out of the battery is 3.1 amps with that resistor removed. What was the value of the resistance of the removed resistor in Ohms?
4) Many resistors are connected purely in parallel to a 17 battery and the power output...
In circuit 1, four resistors are connected purely in parallel to a battery. Three resistors are unknown and one of the resistors is 6 Ohms. In circuit 2, the resistor whose resistance is known (6 Ohms is removed from the circuit and the other three resistors are connected purely in parallel to the same battery. The power output of the battery in circuit 1 is 5.1 Watts more than the power output of the battery in circuit 2. What is...
Four resistors are connected purely in parallel to a 7 volt
battery. Three of the resistors are 3 ohms, 7 ohms, and 12 ohms,
but the fourth is not initially known. The current out of the
battery is 9 amps. What is the power dissipated from the fourth,
unknown resistor, in Watts?
Four resistors are connected purely in parallel to a 7 volt battery. Three of the resistors are 3 ohms, 7 ohms, and 12 ohms, but the fourth is...
3) Two resistors are connected purely in parallel to a battery. The current through one of the resistors is 17 amps. The other resistor has a resistance which is a factor 2.6 times larger. What is the current through the other resistor in amps?
Resistors of 3 Ohms, 9 Ohms, and 11 Ohms are connected purely in parallel to a 12 volt battery. All of these resistors dissipate different amounts of power. What is the greatest amount of power dissipated by one of these resistors in Watts?
5) Four resistors are connected purely in series to a 35 volt battery. Three of the resistors are 3 ohms, 8 ohms, and 12 ohms, but the fourth is not initially known. The power produced by the battery is 27 Watts. What is the power dissipated from the fourth, unknown resistor, in Watts?
What is the equivalent resistance in a circuit if the following resistors are connected in parallel. If a voltage source of 5 volts is connected into the circuit, what is the net current coming out of the voltage source. Resistor 1 = 15 ohms, Resistor 2 = 23 ohms, Resistor 3 = 40 ohms
When two or more resistors are connected in parallel to a battery, which of these statements is incorrect? (a) the voltage across each resistor is the same. (b) the total current flowing from the battery equals the sum of the currents flowing through each resistor. (c) the equivalent resistance of the combination is less than the resistance of any one of the resistors. (d) the equivalent resistance is the sum of the resistances.
When two or more resistors are connected in parallel to a battery, the voltage across each resistor is the same. the equivalent resistance of the combination is less than the resistance of any one of the resistors. the total current flowing from the battery equals the sum of the currents flowing through each resistor. all of the given answers O none of the given answers
Two identical resistors are connected in parallel across a 30-V battery, which supplies them with a total power of 8.5 W. While the battery is still connected, one of the resistors is heated so that its resistance doubles. The resistance of the other resistor remains unchanged. Find (a) the initial resistance of each resistor, and (b) the total power delivered to the resistors after one resistor has been heated. (a) Number Units (b) Number Units
Three resistors are connected to an ideal battery (no internal resistance) as shown. The values are: EMF = 19 V R1 = 39 Ohms R2 = 70 Ohms R3 = 66 Ohms What is the total power output by the battery? Hint: You might consider the current through each individual resistor.