A resistor (resistance = R) is connected first in series and then in parallel with a...
A resistor (resistance = R) is connected first in parallel and then in series with a 1.53 resistor. A battery delivers 7 times as much current to the parallel combination as it does to the series combination. a) Determine the two possible values for R, the greater value being the answer to part (a). b) please include units for both potential difference
An unknown resistor R is connected to a 11.0 Ω resistor, and the combination is attached to an ideal battery. When the two resistors are combined in parallel, they consume 6.60 times as much power as when they are combined in series. Determine the two possible values for R.
A 56.6-? resistor is connected in parallel with a 95.98-? resistor. This parallel group is connected in series with a 28.9-? resistor. The total combination is connected across a 12.7-V battery. Find (a) the current and (b) the power dissipated in the 95.98-? resistor. Why is A is not 0.1968A Chapter 20, Problem 062 Incorrect. A 56.6-Ω resistor is connected in parallel with a 95.98-Ω resistor. This parallel group is connected in series with a 28.9-Ω resistor. The total combination...
A 85.4-Ω resistor is connected in parallel with a 92.68-Ω resistor. This parallel group is connected in series with a 18.4-Ω resistor. The total combination is connected across a 13.0-V battery. Find (a) the current and (b) the power dissipated in the 92.68-Ω resistor.
A 59.8-Ω resistor is connected in parallel with a 130.6-Ω resistor. This parallel group is connected in series with a 26.2-Ω resistor. The total combination is connected across a 14.7-V battery. Find (a) the current and (b) the power dissipated in the 130.6-Ω resistor.
A 85.4-Ω resistor is connected in parallel with a 92.68-Ω resistor. This parallel group is connected in series with a 18.4-Ω resistor. The total combination is connected across a 13.0-V battery. Find (a) the current and (b) the power dissipated in the 92.68-Ω resistor . 2 3
A 1.40 kΩ resistor is connected in series with a 0.800 kΩ resistor. This pair of resistors is connected in parallel with a 7.00 kΩ resistor. That combination is then connected in series with a 0.700 kΩ resistor and a 9.0-V ideal battery (no internal resistance of course). A) sketch this circuit B) Determine the total equivalent resistance of this circuit's arrangement C) Determine the amount of current that flows through the battery D) Determine the voltage drop across the...
An ideal inductor of inductance 7.7 mH is connected in parallel with a resistor of resistance 141 Ω. This parallel combination is then connected in series with a second ideal inductor of inductance 4.5 mH. The sinusoidal voltage source for the circuit is 102 V, 71.6 Hz. Sketch the circuit and find the magnitude of the current, I, flowing through the resistor.
(a) What is the equivalent resistance of six resistors connected in series with a 16.0-V battery if each resistor has a value of 23.0 Ω? (answer in Ω) (b) Determine the current flowing through each of the six resistors. (answer in A) (c) If the six resistors were instead connected in parallel across the battery, what would be the equivalent resistance? (answer in Ω) (d) Determine the current through each resistor for this parallel connection (answer in A)
Two identical resistors, R1 and R2, are connected in parallel, and this parallel combination is then connected in series with a 100 Ω resistor, R3 as shown below If the total resistance of the circuit is 300 Ω what must be the resistance of R1 and R2? If the circuit is connected to a 30V battery, what would the current through R1? What voltage is a dropped across R3? 100 S