If I=20A and R=5 ohm, the below circuit can be transformed to: I( ↑ O a. A (100V) voltage source with (5 ohm) series resistor O b. A (4V) voltage source with (5 ohm) parallel resistor O c. A (100V) voltage source with (5 ohm) parallel resistor O d. A (4V) voltage source with (5 ohm) series resistor
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- Answer the following questions related to a series/parallel combinational circuit configured as follows: R1 is in series with the source and also in series with the parallel combination of R2 and R3. The circuit’s voltage is +24VDC, R1= 4.5kΩ, R2=30kΩ, and R3=10kΩ. The total resistance of the circuit described above is _________. Use correct engineering notation and unit measure!Answer the following questions related to a series/parallel combinational circuit configured as follows: R1 is in series with the source and also in series with the parallel combination of R2 and R3. The circuit’s voltage is +24VDC, R1= 4.5kΩ, R2=30kΩ, and R3=10kΩ. The voltage drop across R1 in the circuit described above is __________. Use correct engineering notation and unit measure!Answer the following questions related to a series/parallel combinational circuit configured as follows: R1 and R2 are in series with the source and these two resistors (R1 and R2) are in parallel with R3. The circuit’s voltage is +18VDC, R1= 1.5kΩ, R2=4.5KΩ, and R3=30kΩ. The total current drawn by the circuit described above is __________. Use correct engineering notation and unit measure! The total resistance of the circuit described above is _________. Use correct engineering notation and unit measure! The current drawn by R2 in the circuit describe above is _________. Use correct engineering notation and unit measure! The voltage drop across R1 in the circuit described above is __________. Use correct engineering notation and unit measure! The power dissipated by R3 in the circuit described above is __________. Use correct engineering notation and unit measure!
- Answer the following question related to a series/parallel combinational circuit configured as follows: R1 is in series with the source and also in series with the parallel combination of R2 and R3. The circuit’s voltage is +24VDC, R1= 4.5kΩ, R2=30kΩ, and R3=10kΩ. The total current drawn by the circuit described above is __________. Use correct engineering notation and unit measure!Answer the following questions related to a series/parallel combinational circuit configured as follows: R1 and R2 are in series with the source and these two resistors (R1 and R2) are in parallel with R3. The circuit’s voltage is +18VDC, R1= 1.5kΩ, R2=4.5KΩ, and R3=30kΩ. The power dissipated by R3 in the circuit described above is __________. Use correct engineering notation and unit measure!Answer the following questions related to a series/parallel combinational circuit configured as follows: R1 and R2 are in series with the source and these two resistors (R1 and R2) are in parallel with R3. The circuit’s voltage is +18VDC, R1= 1.5kΩ, R2=4.5KΩ, and R3=30kΩ. The total current drawn by the circuit described above is __________. Use correct engineering notation and unit measure!
- Answer the following questions related to a series/parallel combinational circuit configured as follows: R1 and R2 are in series with the source and these two resistors (R1 and R2) are in parallel with R3. The circuit’s voltage is +18VDC, R1= 1.5kΩ, R2=4.5KΩ, and R3=30kΩ. The current drawn by R2 in the circuit describe above is _________. Use correct engineering notation and unit measure!1. Draw a series circuit that has VS = 10V, R1 = 2 kOhms, R2 = 4 kOhms, and R3 = 6 kOhms. 2. Solve for resistor voltages V1, V2, V3, and resistor currents I1, I2, and I3 in part 1.Answer the following questions related to a series/parallel combinational circuit configured as follows: R1 and R2 are in series with the source and these two resistors (R1 and R2) are in parallel with R3. The circuit’s voltage is +18VDC, R1= 1.5kΩ, R2=4.5KΩ, and R3=30kΩ. The voltage drop across R1 in the circuit described above is __________. Use correct engineering notation and unit measure!
- Given the following value of resistances: R1= 15 ohms R2= 30 ohms R3= 50 ohms a1. Calculate the total resistance assuming that the resistors are in series connection. a2. Calculate the total resistance assuming that the resistors are in parallel connection. b. For the series circuit, if the total current is 2A, calculate the potential difference at resistor 2. c. For the parallel circuit, if the total voltage is 5V, calculate the current at resistor 3.TITLE: Superposition Theorem DESCRIPTION: In this project, you will need to find the validity and the power behind the Superposition theorem. You need to search about the theorem, find its definition and apply it to a problem to find the concept behind the theorem. Show a step by step solution for an electrical circuit problem two times (Solve a circuit two times finding voltage or current): 1- Without using superposition theorem (You can use any method (Nodal, Mesh, ..etc) 2- Using superposition theorem. Your solutions should be well organized, answering the questions properly in detail and in a step by step solution. Write your findings and write your conclusion about the superposition theorem.Using appropriate circuit theorems, calculate the currents (i1-i4)