The current drawn by R2 in the circuit describe above is _________. Use correct engineering notation and unit measure!
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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!
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- i've already seen this solution. but regardless, i askedfor an explanation. i always have a big issue with understanding how to do nodal analysis in these type of circuits, how to name nodes and on what basis. how was the outgoing current 0-v0/3r and how do i identify it and in the incoming current. how to use voltage division rule here. so please annotate everything on the figure and help me understand all my above inquiries so i can understand how to solve these type of questions. thank you! please be extremely detailed and concise. also when can i and can i not use nodal analysis and voltae division rulesolve the actual value of each resistor using kirchhoff's law. R1 = 10kohmsR2 = 3kohmsR3 = 5kohmsR4 = 15kohmsR5 = 18kohmsA1 = -1.2mAA2 = 1.2mAA3 = -1mAA4 = -150.8uAA5 = 150.8uAV1 = 12VV2 = -3.5VV3 = 5VV4 = 2.2VV5 = -2.7V the VS1 is 20V6) Th ree resistors R1, R2, and R3 have the following values. R1 + 5%. Determine the relative error if the resistors are: 2002 + 5%, R2 = 1002 + 5%, R3 = 50 2 %3D (a) Connected in series, (b) Connected in parallel.
- a. Consider the following circuit in Figure 6 to find VR1 , Iz and IR5 by using nodal analysis b. listand explain in detail any three advantages of nodal analysis.(prove each point with example)Simplify the block diagram on the left figure, the answer must be the same on the right figure make this as basis on the answer and must prove using algebraic. ThanksAnswer 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!
- An ammeter is a tool that measures the current (a better name would be V Show Current O Electrons ampmeter) that passes through it. In the circuit simulation you can get Conventional ammeters from the upper right toolbar. Labels Values When current is flowing in through the meter a number value will replace the question mark. Current Votmeter Ammeters Wire Resistivity First make a simple series circuit with a battery, switch, single light bulb and ammeter as shown at right. It's actually not necessary to include the switch but if I left it out then my snapshots would all give away the answers. With the switch closed/current flowing in the circuit, record the current that Current is flowing out of the light bulb and back to the battery. 0.00 A The current is A Now switch the light bulb and the battery so that the ammeter comes before the bulb. Current 0.00 A With the switch closed/current flowing in the circuit, record the current that is flowing out of the battery and into the light…Shown in the figure below is an electrical circuit containing three resistors and two batteries. I₁ 0= 4 + L . ww R3 R₂ ww 1₂ R₁ ww Write down the Kirchhoff Junction equation and solve it for I, in terms of I₂ and I3. Write the result here: 1₁ = 12-13 R₂=552 R₂ = 132 13 Write down the Kirchhoff Loop equation for a loop that starts at the lower left corner and follows the perimeter of the circuit diagram clockwise. - IzR3 − LR₁ + 14 + 10 Write down the Kirchhoff Loop equation for a loop that starts at the lower left corner and touches the components 4V, R₂, and R₁. 0 = 4-1₂R₂-11R₁ The resistors in the circuit have the following values: R₁ = 12 Solve for all the following (some answers may be negative): I₁ = 27.78 X Amperes 1₂ = 28.84 X Amperes 13 = 1.060 X Amperes NOTE: For the equations, put in resistances and currents SYMBOLICALLY using variables like R₁,R₂,R3 and 11,12,13. Use numerical values of 10 and 4 for the voltages.What are some applications for a series-parallel circuit? Choose one of the applications and tell everyone why a series-parallel circuit is used for the application instead of just a series or parallel circuit.
- Calculate values of asked physical quantities of the circuit: The circuits terminal voltage is 16.7V and then resistors A&B are in parallel. The resistance of resistor A, is 6.2 ohm and for B it's 7.9 ohm. What's the current going through each resistor?Resistor Circuit Consider a network of resistors connected between terminal a and b that consists of 2 parallel combinations of resistors that are in series with one another. The first parallel combination is composed of two resistors that are 30 and 6n2 respectively. The next set of resistors are 30, 6N, and 30. Each parallel combination of resistors is called a bank. a. Draw a schematic of the circuit described.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!