Step 1. For the circuit given in Figure 1, calculate the voltages across and currents through each circuitelement. Using these values, determine the power absorbed or delivered by each circuit element. Includeyour calculations in your laboratory notebook. Record all of your calculated results in Table 1 for latercomparison with your experimental values.100 Ωw5V (+18002i2'ww1318002100 ΩFigure 1: DC Resistive NetworkTable 1: Calculated ValuesVoltage (V) Current (mA)Power (mW)180 Ω180 ΩVARNICE5 V

Answered: Step 1. For the circuit given in Figure…

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter7: Parallel Circuits

Section: Chapter Questions

Problem 3PP: Using the rules for parallel circuits and Ohmslaw, solve for the missing values....

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Please break this down for me as much as possible, im struggling to grasp kirchhoff's, thank you.
3. The figure on the left below shows a schematic diagram of a battery. The voltage measured by U1 is called the terminal voltage given R1 = 1 ohm. In the figure on the right below, the terminal voltage of each of the battery-resistor combination is Vr = 1.5 volts. Find the following: a. The current passing through R5. b. The currents passing through R1 and R3 C. The voltage across R1. d. The voltage of the battery EMF. e. The percentage of voltage loss ot the battery due to the internal resistance R1. The power dissipated by the internal resistance R1. g. The power dissipated by R5 if R1 = R2 = R3 = R4 = 0. h. The percentage of power dissipation loss due to the four resistors R1, R2, R3, and R4 f. R1 R3 S10 R1 U1 1.500 EMF EMF R5 100 V1 R2 $10 EMF R4 EMF EMF
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Part II: The potential difference across different elements of a circuit resistance in series 1. Using the circuit shown below, set R1 and R2 as shown in the chart below. For each pair of resistances in the chart below, record the drop in voltage, or potential, across R1 (Figure a), drop in voltage, or potential, across R2 (Figure b), then record it across both resistors (Figure c). R, R, E, E, R, Figure a Figure b R, E, E, R, Figure c them Resistance Values, Voltage Drops, and Curfent Data Values R, (ohms) (ohms) R2 V, (volts) 4 1-716 V 1.47 V V2 (volts) 0.268 V V12 (volts) | (amps) 26 1.984 1.978 V 65.6 MA 22 0.531 V 65.6 MA 18 1-978 V 12 0.920 V L.182 V 0796 V 65.6 mA 1.980 V 1.981 V 14 16 1.062 V 65.6 mA 10 20 0.657V 1.325 V 24 1.985 V 65.7 mA 0- 398 V 1. 587 V 65.6 mA please help mewith Question 2 and 3 no calculation needed just a faugafh combination from the voltage and current numbers for that combination. Can this be developed 2. From the data above, explore the relationship…
Using the rules for parallel circuits and Ohmslaw, solve for the missing values. ETE1E2E3E4ITl1I2l33.2AI4RT3.582R116R210R3R420PTP1P2P3P4
leaving a freevway. Current from the opposite side must travel further, weakening the potential on that side. This creates a potent the motor in that direction, causing the motor to spin. O Only the side where the switch is closed forms a cormplete circuit, so the motor must spin in that direction. Answer the questions and submit the photos for questions 2 -9using the circuit from STEP 2. D2 Yellow R1 50 Q R2 50 0 R3 PSB (+ 5 V 100 aLW R4 D1 100 Q Blue SW1 Sw2 Question 2 本

Using the circuit in the image and the figures in the attached table: a. With both switches, SW1 and SW2 left open complete the following: i. Briefly discuss what the three resistors are used for. ii. Determine the total resistance in the circuit. iii. Determine the currents flowing in the circuit. iv. Determine the volt drops around the circuit. v. Use the appropriate Kirchhoff’s law to confirm your results. b. Now close switch SW1 and complete the following: i. Determine the total resistance in the circuit. ii. Determine the currents flowing in the circuit. iii. Determine the volt drops around the circuit. iv. Use the appropriate Kirchhoff’s law to confirm your results. c. Now Whilst keeping SW1 closed close SW2 and complete the following: i. Determine the total resistance in the circuit. ii. Determine the currents flowing in the circuit. iii. Determine the volt drops around the circuit. iv. Use the appropriate Kirchhoff’s law to confirm your results.
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