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| When two or more components are connected across the same voltage source, they are in |
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| the reciprocal of resistance |
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| A _____________is any point in a circuit where two or more circuit paths come together |
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| The sum of the currents into a junction is ___________to the sum of the currents out of that junction |
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| The total resistance of a parallel circuit is always __________ than the largest resistor value. |
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| As the number of branches is increased in a parallel circuit, the total circuit _____________increases |
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| The total resistance of like-value resistors in parallel is equal to the value of the resistors ________________by the number of resistors used. |
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| A parallel circuit acts as a _______ divider. |
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| Total power in a parallel resistive circuit is equal to the ________ of the powers of each branch. |
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| Another way to describe a parallel resistor is to say that it is in _____. |
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| When one resistor in a parallel circuit opens, the total load current _______. |
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| When a resistor in a parallel branch is open, the current through that branch will be ________________. |
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| When one light bulb opens in a parallel circuit, all of the remaining light bulbs in that circuit remain ________________. |
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| Two resistors have a color code of Brown, Black, Red, and Gold. If they are connected in parallel, the total resistance is equal to ____________ohms. |
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| Three resistors have a color code of Orange, Black, Orange, and Gold. If they are connected in parallel, the total resistance is equal to ________ohms. |
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| Four resistors have a color code of Brown, Black, Yellow, and Gold. If they are connected in parallel, the total resistance is equal to __________ohms. |
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| there is more than one current path between two points |
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| In a parallel resistive circuit: |
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| is equally applied to all branch conductances |
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| The voltage across any branch of a parallel circuit: |
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| sum of the total currents flowing out of a junction equals the sum of the total currents flowing into that junction |
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| Kirchhoff's law for parallel circuits states that the: |
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| is the inverse of the total circuit conductance |
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| The total resistance of a parallel circuit: |
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| product of their R values divided by the sum of the two resistors |
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| The total resistance of two resistors in parallel is equal to the: |
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| multiply the desired value by the known value, then divide this product by their difference |
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| To determine the value of a resistor to place in shunt with a known resistor to obtain a certain value of the total parallel combination: |
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| total resistance divided by that branch resistor, multiplied by the total current |
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| The general current divider equation used to find a branch current is equal to the: |
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| total current is multiplied by the ratio of the other branch resistor, divided by the sum of the branch resistances |
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| To find one branch current of two resistors in shunt, the: |
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| An ammeter is connected in ____ with the branch resistor to measure branch current and in ____ with the voltage supply to measure total parallel circuit current. |
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| 32- speakers are connected in parallel. The total resistance of this parallel connection is: |
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| Four equal valued resistors are connected in parallel with a 12-V source. If a total current of 10 A is drawn from the source, the current through each resistor is: |
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| Two 8- speakers are connected in parallel. If an amplifier provides 16 V to this parallel connection, the total power is: |
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| Six resistors are connected in parallel. R1 is equal to 10 ohms, R2 is equal to 15 ohms, R3 is equal to 22 ohms, R4 is equal to 33 ohms, R5 is equal to 47 ohms, and R6 is equal to 68 ohms. The voltage applied to the circuit is 12 volts DC. What is the current flowing in R1? |
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| Six resistors are connected in parallel. R1 is equal to 10 ohms, R2 is equal to 15 ohms, R3 is equal to 22 ohms, R4 is equal to 33 ohms, R5 is equal to 47 ohms, and R6 is equal to 68 ohms. The voltage applied to the circuit is 12 volts DC. What is the current flowing in R2? |
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| Six resistors are connected in parallel. R1 is equal to 10 ohms, R2 is equal to 15 ohms, R3 is equal to 22 ohms, R4 is equal to 33 ohms, R5 is equal to 47 ohms, and R6 is equal to 68 ohms. The voltage applied to the circuit is 12 volts DC. What is the current flowing in R3? |
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| Six resistors are connected in parallel. R1 is equal to 10 ohms, R2 is equal to 15 ohms, R3 is equal to 22 ohms, R4 is equal to 33 ohms, R5 is equal to 47 ohms, and R6 is equal to 68 ohms. The voltage applied to the circuit is 12 volts DC. What is the current flowing in R4? |
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| Six resistors are connected in parallel. R1 is equal to 10 ohms, R2 is equal to 15 ohms, R3 is equal to 22 ohms, R4 is equal to 33 ohms, R5 is equal to 47 ohms, and R6 is equal to 68 ohms. The voltage applied to the circuit is 12 volts DC. What is the current flowing in R5? |
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| Six resistors are connected in parallel. R1 is equal to 10 ohms, R2 is equal to 15 ohms, R3 is equal to 22 ohms, R4 is equal to 33 ohms, R5 is equal to 47 ohms, and R6 is equal to 68 ohms. The voltage applied to the circuit is 12 volts DC. What is the current flowing in R6? |
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| Six resistors are connected in parallel. R1 is equal to 10 ohms, R2 is equal to 15 ohms, R3 is equal to 22 ohms, R4 is equal to 33 ohms, R5 is equal to 47 ohms, and R6 is equal to 68 ohms. The voltage applied to the circuit is 12 volts DC. What is the power consumed by R1? |
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| Six resistors are connected in parallel. R1 is equal to 10 ohms, R2 is equal to 15 ohms, R3 is equal to 22 ohms, R4 is equal to 33 ohms, R5 is equal to 47 ohms, and R6 is equal to 68 ohms. The voltage applied to the circuit is 12 volts DC. What is the power consumed by R2? |
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| Six resistors are connected in parallel. R1 is equal to 10 ohms, R2 is equal to 15 ohms, R3 is equal to 22 ohms, R4 is equal to 33 ohms, R5 is equal to 47 ohms, and R6 is equal to 68 ohms. The voltage applied to the circuit is 12 volts DC. What is the power consumed by R3? |
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| Six resistors are connected in parallel. R1 is color-coded Brown, Black, Brown, and Gold. R2 is color-coded Brown, Green, Red, and Gold. R3 is color-coded Red, Red, Orange, and Gold. R4 is color-coded Orange, Orange, Yellow, and Gold. R5 is color-coded Yellow, Violet, Green, and Gold. R6 is color-coded Blue, Gray, Blue, and Gold. The voltage applied to the circuit is 12 volts DC. What is the value of R5? |
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| Six resistors are connected in parallel. R1 is color-coded Brown, Black, Brown, and Gold. R2 is color-coded Brown, Green, Red, and Gold. R3 is color-coded Red, Red, Orange, and Gold. R4 is color-coded Orange, Orange, Yellow, and Gold. R5 is color-coded Yellow, Violet, Green, and Gold. R6 is color-coded Blue, Gray, Blue, and Gold. The voltage applied to the circuit is 12 volts DC. What is the value of R6? |
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| Six resistors are connected in parallel. R1 is color-coded Brown, Black, Brown, and Gold. R2 is color-coded Brown, Green, Red, and Gold. R3 is color-coded Red, Red, Orange, and Gold. R4 is color-coded Orange, Orange, Yellow, and Gold. R5 is color-coded Yellow, Violet, Green, and Gold. R6 is color-coded Blue, Gray, Blue, and Gold. The voltage applied to the circuit is 12 volts DC. What is the current flowing through R1? |
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| Six resistors are connected in parallel. R1 is color-coded Brown, Black, Brown, and Gold. R2 is color-coded Brown, Green, Red, and Gold. R3 is color-coded Red, Red, Orange, and Gold. R4 is color-coded Orange, Orange, Yellow, and Gold. R5 is color-coded Yellow, Violet, Green, and Gold. R6 is color-coded Blue, Gray, Blue, and Gold. The voltage applied to the circuit is 12 volts DC. What is the current flowing through R2? |
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| Six resistors are connected in parallel. R1 is color-coded Brown, Black, Brown, and Gold. R2 is color-coded Brown, Green, Red, and Gold. R3 is color-coded Red, Red, Orange, and Gold. R4 is color-coded Orange, Orange, Yellow, and Gold. R5 is color-coded Yellow, Violet, Green, and Gold. R6 is color-coded Blue, Gray, Blue, and Gold. The voltage applied to the circuit is 12 volts DC. What is the current flowing through R3? |
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| Six resistors are connected in parallel. R1 is color-coded Brown, Black, Brown, and Gold. R2 is color-coded Brown, Green, Red, and Gold. R3 is color-coded Red, Red, Orange, and Gold. R4 is color-coded Orange, Orange, Yellow, and Gold. R5 is color-coded Yellow, Violet, Green, and Gold. R6 is color-coded Blue, Gray, Blue, and Gold. The voltage applied to the circuit is 12 volts DC. What is the current flowing through R6? |
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| Six resistors are connected in parallel. R1 is color-coded Brown, Black, Brown, and Gold. R2 is color-coded Brown, Green, Red, and Gold. R3 is color-coded Red, Red, Orange, and Gold. R4 is color-coded Orange, Orange, Yellow, and Gold. R5 is color-coded Yellow, Violet, Green, and Gold. R6 is color-coded Blue, Gray, Blue, and Gold. The voltage applied to the circuit is 12 volts DC. What is the power consumed by R4? |
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| Six resistors are connected in parallel. R1 is color-coded Brown, Black, Brown, and Gold. R2 is color-coded Brown, Green, Red, and Gold. R3 is color-coded Red, Red, Orange, and Gold. R4 is color-coded Orange, Orange, Yellow, and Gold. R5 is color-coded Yellow, Violet, Green, and Gold. R6 is color-coded Blue, Gray, Blue, and Gold. The voltage applied to the circuit is 12 volts DC. What is the power consumed by R5? |
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| Six resistors are connected in parallel. R1 is color-coded Brown, Black, Brown, and Gold. R2 is color-coded Brown, Green, Red, and Gold. R3 is color-coded Red, Red, Orange, and Gold. R4 is color-coded Orange, Orange, Yellow, and Gold. R5 is color-coded Yellow, Violet, Green, and Gold. R6 is color-coded Blue, Gray, Blue, and Gold. The voltage applied to the circuit is 12 volts DC. What is the power consumed by R6? |
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| Six resistors are connected in parallel. R1 is number-coded 102J. R2 is number-coded 153J. R3 is number-coded 224J. R4 is number-coded 335J. R5 is number-coded 476J. R6 is number-coded 687J. The voltage applied to the circuit is 12 volts DC. What is the value of R1? |
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| What is the conductance of a 10-resistor? |
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| What is the conductance of a 2-kresistor? |
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| Two 6-k and three 9-k resistors are all connected in parallel. What is the total resistance? |
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| The following resistors are connected in parallel: one 1-kone 910- one 560- one 430-and one 390-What is the total resistance? |
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| How many 75-k resistors must be put in parallel to provide a total resistance of 15 k |
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| What value of resistance needs to be put in parallel with a 12-k resistor to provide a total resistance of 3 k |
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| What would be the lowest total resistance of a load that could be connected safely to a 120-V wall outlet rated at 15 A? |
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| Four 12-V 12-W light bulbs are connected in parallel. What is the total resistance? |
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| The following resistors are connected in parallel with a 12-V source: two 12-The following resistors are connected in parallel with a 12-V source: two 12-ohmsand one 6-ohms. What is the total current?and one 6-. What is the total current? |
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| Three 100-W loads are connected in parallel. What is the total power? |
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| The following resistors are connected in parallel with a 30-V source: three 20-kohmtwo 15-kohm two 10-kohm and one 5-kohm. How much current flows through the 5-kohm resistor? |
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| One 6-kohmand one 3-kohm resistor are connected in parallel. If a total current of 30 mA is provided by the source, how much current flows through the 3-kohm resistor? |
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