Context: The results obtained in table 4.1 were gathered using a multimeter conducting on a circuit board. The results obtained in table 2.1 was obtained through theoretical calculation, and table 2.3 was obatined through a circuit simulation software. The values in tables 2.1 and 2.3 are identical. All three tables ask for Vo and I. Table 4.1 shows slight discrepancies, explain why, including many possible causes. The second question asks to recalculate Vo and I using the resistor value 5.1k ohm, the value used to obatin table 4.1. Where tables 2.1 and 2.3 were obtained with a resistor value of 5.0k ohm. The calculation is included in part 4(c). Include all steps and information. Thank you very much.

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If the input voltage, V₁= 15 volts, and resistors Rx = 10 k and Ry = 5.0 k2, find the values of the output voltage, Vo and the circuit current, I by using the above expressions. Record the results in Table 2.1. Pre-Lab workspace Table 2.1 yapamay kanya Vo I 5V IMA V₁ ;. Rx www Ry Im I = + Vo V₁ Rx + Ry SK_R Rx www Figure 2.1: Simple voltage-divider circuit Voltage division cule + V₁ = 15V [ 5K SK ] = 15V [ SSK ] 5K lk +5k 15k 15 V₁ = 5V, 15 15K 10k+5k (i) Why would the value of I = I₁ and Vo = V₂ (or V3)? Explain. voltages the same same → V₂ = V/3 in parallel V₂ = V3 = Vo The same current flows through R₁, so, there are no >> I = I₁ IMA Vo = √₂ cr V₂ = SV CIC = IMA. Ry For the resistor values selected for circuits in Figure 2.0 and Figure 2.1, and comparing your results in Table 2.0 with those in Table 2.1, answer the following questions: lak * 10k 10K + 10k + Vo - (ii) Would it be reasonable to conclude that resistor, Ry value chosen must be equivalent to the value of parallel resistors, R₂ and R3 combined? Why? changes ⇒ I = I₁ Yes, it would be reasonable, Ry value is the value of the Combination of R₂ and R3 Ry - R₂ // R3 10K // 10K Ry SK_R

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MOLDI Workspace Vo I 14.8V 1.14 mA Table 4.1: Measured values for the circuit in Figure 2.1 1 With reference to the "Simple Voltage Divider" circuit in Figure 2.1: Explain how your measurement results in Table 4.1 compare to the corresponding theoretical values in Table 2.1 and MultiSIM simulation values in Table 2.3? Explain possible causes of any discrepancies. Use your Pre-Lab 4(c) analysis to recalculate a more reasonable theoretical prediction of the expected Vo and I values, taking into consideration the use of a standard value of 5.1 k resistor (instead of the 5.0 ks) for Ry. How do these recalculated values compare to the measured ones in Table 4.1? Explain.