Series-Parallel Connection of Resistors A. Answer the following: 1. Two resistors of differing resistance are in series and connected to a battery to form a complete circuit. Which resistor has more current? 2. Two resistors of differing resistance are in series and connected to a battery to form a complete circuit. Which resistor has more voltage across it? 3. Two resistors of differing resistance are in parallel and connected to a battery to form a complete circuit. Which resistor has more electric power dissipation? B. Solve: 1. Three resistors that have values of 10 02, 2002, and 30 are to be connected. a) How should you connect them to get the maxi- mum equivalent resistance and what is this max- imum value? D) How should you connect them to get the mini- mum equivalent resistance and what is this mini- mum value? 2. Three resistors with values of 5, 10 and 15 are connected in series with a 9 V battery. a) What is the total equivalent resistance? b) What is the current in each resistance? c) What is the power rating of the 15 resistor? 3. Three resistors with values 1, 2 and 4 ar connected in parallel in a circuit with a 6 V battery. What are a) The total equivalent resistance b) The voltage across each resistor c) The power delivered to the 4 resistor
Series-Parallel Connection of Resistors A. Answer the following: 1. Two resistors of differing resistance are in series and connected to a battery to form a complete circuit. Which resistor has more current? 2. Two resistors of differing resistance are in series and connected to a battery to form a complete circuit. Which resistor has more voltage across it? 3. Two resistors of differing resistance are in parallel and connected to a battery to form a complete circuit. Which resistor has more electric power dissipation? B. Solve: 1. Three resistors that have values of 10 02, 2002, and 30 are to be connected. a) How should you connect them to get the maxi- mum equivalent resistance and what is this max- imum value? D) How should you connect them to get the mini- mum equivalent resistance and what is this mini- mum value? 2. Three resistors with values of 5, 10 and 15 are connected in series with a 9 V battery. a) What is the total equivalent resistance? b) What is the current in each resistance? c) What is the power rating of the 15 resistor? 3. Three resistors with values 1, 2 and 4 ar connected in parallel in a circuit with a 6 V battery. What are a) The total equivalent resistance b) The voltage across each resistor c) The power delivered to the 4 resistor
Physics for Scientists and Engineers, Technology Update (No access codes included)
9th Edition
ISBN:9781305116399
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter28: Direct-current Circuits
Section: Chapter Questions
Problem 28.10OQ: The terminals of a battery are connected across two resistors in parallel. The resistances of the...
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Transcribed Image Text:Series-Parallel Connection of Resistors
A. Answer the following:
1. Two resistors of differing resistance are in series and
connected to a battery to form a complete circuit.
Which resistor has more current?
2. Two resistors of differing resistance are in series and
connected to a battery to form a complete circuit.
Which resistor has more voltage across it?
3. Two resistors of differing resistance are in parallel
and connected to a battery to form a complete circuit.
Which resistor has more electric power dissipation?
B. Solve:
1. Three resistors that have values of 100, 200, and 30
are to be connected.
a) How should you connect them to get the maxi-
mum equivalent resistance and what is this max-
imum value?
D) How should you connect them to get the mini-
mum equivalent resistance and what is this mini-
mum value?
2. Three resistors with values of 5 , 10 and 15
are connected in series with a 9 V
battery.
a) What is the total equivalent resistance?
b) What is the current in each resistance?
c) What is the power rating of the 15 resistor?
3. Three resistors with values 1, 2 and 4 ar
connected in parallel in a circuit with a
6 V battery. What are
a) The total equivalent resistance
b) The voltage across each resistor
c) The power delivered to the 4 resistor
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