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Ry Ez Rg www R, R6 Rg e R3 Rs Rz a Suppose you have the following circuit diagram. Here R1=2.2kN, R2=2.2kN, R3=1.1kN, R4=2.2kN, R5=22kN, R6=1.1kN, R7=11KN, R 8=2.2kN, R9=2.2kN are the resistances on the circuit where kN stands for kilo ohm. The electromotive forces of the batteries are E1=5volts and E2=8volts. a) Calculate Rbk, the resistance equivalent to R5,R6,R7,R8 and R9 between the terminals b and k. Value of Rbk b) Calculate the current through R1. current through R1 c) Calculate the current through Rbk and call it Ibk. Value of Ibk d) Calculate the power dissipated through the R2 resistor power dissipated through the R2 resistor

Ry Ez Rg www R, R6 Rg e R3 Rs Rz a Suppose you have the following circuit diagram. Here R1=2.2kN, R2=2.2kN, R3=1.1kN, R4=2.2kN, R5=22kN, R6=1.1kN, R7=11KN, R 8=2.2kN, R9=2.2kN are the resistances on the circuit where kN stands for kilo ohm. The electromotive forces of the batteries are E1=5volts and E2=8volts. a) Calculate Rbk, the resistance equivalent to R5,R6,R7,R8 and R9 between the terminals b and k. Value of Rbk b) Calculate the current through R1. current through R1 c) Calculate the current through Rbk and call it Ibk. Value of Ibk d) Calculate the power dissipated through the R2 resistor power dissipated through the R2 resistor

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Please solve part a, c, d and e for me. These are sub parts of a question.

Use the following constants if necessary. Coulomb constant, k=8.987×10^9N•m2/C2. Vacuum permittivity, eo=8.854×10^-12F/m. Magnetic Permeability of vacuum, uo=12.566370614356×10^-7H/m. Magnitude of the Charge of one electron, e=-1.60217662×10^-19C. Mass of one electron, me=9.10938356×10^-31kg. Unless specified otherwise, each symbol carries their usual meaning. For example, µC means microcoulomb. Ry Ez Rg www R, Rg 6, e R3 R2 b a Suppose you have the following circuit diagram. Here R1=2.2kN, R2=2.2kN, R3=1.1kN, R4=2.2kN, R5=22kN, R6=1.1kN, R7=11KN, R 8=2.2kN, R9=2.2kN are the resistances on the circuit where kN stands for kilo ohm. The electromotive forces of the batteries are E1=5volts and E2=8volts. a) Calculate Rbk, the resistance equivalent to R5,R6,R7,R8 and R9 between the terminals b and k. Value of Rbk b) Calculate the current through R1. current through R1 c) Calculate the current through Rbk and call it Ibk. Value of Ibk d) Calculate the power dissipated through the R2 resistor power dissipated through the R2 resistor e) Calculate the potential difference across the oc terminal.
Transcribed Image Text:Use the following constants if necessary. Coulomb constant, k=8.987×10^9N•m2/C2. Vacuum permittivity, eo=8.854×10^-12F/m. Magnetic Permeability of vacuum, uo=12.566370614356×10^-7H/m. Magnitude of the Charge of one electron, e=-1.60217662×10^-19C. Mass of one electron, me=9.10938356×10^-31kg. Unless specified otherwise, each symbol carries their usual meaning. For example, µC means microcoulomb. Ry Ez Rg www R, Rg 6, e R3 R2 b a Suppose you have the following circuit diagram. Here R1=2.2kN, R2=2.2kN, R3=1.1kN, R4=2.2kN, R5=22kN, R6=1.1kN, R7=11KN, R 8=2.2kN, R9=2.2kN are the resistances on the circuit where kN stands for kilo ohm. The electromotive forces of the batteries are E1=5volts and E2=8volts. a) Calculate Rbk, the resistance equivalent to R5,R6,R7,R8 and R9 between the terminals b and k. Value of Rbk b) Calculate the current through R1. current through R1 c) Calculate the current through Rbk and call it Ibk. Value of Ibk d) Calculate the power dissipated through the R2 resistor power dissipated through the R2 resistor e) Calculate the potential difference across the oc terminal.
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