b) Measure the total circuit resistance R, with the ohmmeter. 0-10mAde mA 1K RT (circuit) 1K c) Does the total circuit resistance value, agree with the results of Procedure 1, 0-25Vde (circuit) (c) and (d)? 1.5K R1 Explain. 1.5K R. Fig. 8-3 3. a) Connect the circuit shown in Fig. 8-2. Note that the ammeter, set to the 0-10mAdc range, is connected between resistor R, and the e) Does the total calculated circuit resis- power source. tance value, RT (caleulatedi agree with the result of Procedure 2 (b)? b) Turn on the power source and adjust to 25Vdc. c) How much circuit current is indicated by the milliammeter? f) Return the voltage to zero and turn off the power source. (circuit) mAdc 4. a) Connect the milliammeter between R, and R2 as shown in Fig. 8-3. b) Turn on the power source and adjust to 0-10mA de 25Vdc. c) Measure and record the current flowing mA between R, and R2. 1K IK mAdc 0-25Vdc d) Return the voltage to zero and turn off 1.5K the power source. 1.5 K R. 5. a) Repeat Procedure 4 with the milliam- meter connected, in turn, to the following circuit positions: Fig. 8-2 d) Subetitute

pLEASE ANSWERRRR

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b) Measure the total circuit resistance R, R, 0-10mAdc with the ohmmeter. mA 1K 1K RT (circuit) c) Does the total circuit resistance value, 0-25Vde R, agree with the results of Procedure 1, 1.5K R, (circuit) (c) and (d)? Explain. 1.5 K R4 Fig. 8-3 3. a) Connect the circuit shown in Fig. 8-2. Note that the ammeter, set to the 0-10mAdc range, is connected between resistor R1 and the power source. e) Does the total calculated circuit resis- tance value, RT (caleulatedi agree with the result of Procedure 2 (b)? b) Turn on the power source and adjust to 25Vdc. c) How much circuit current is indicated f) Return the voltage to zero and turn off by the milliammeter? the power source. mAdc 4. a) Connect the milliammeter between R, and R2 as shown in Fig. 8-3. I çcircit) b) Turn on the power source and adjust to O-10MA de 25Vdc. R, c) Measure and record the current flowing mA between R, and R2. 1K IR-R2 mAdc IK R2 0-25Vdc d) Return the voltage to zero and turn off 1.5 K R3 the power source. 1.5 K R. 5. a) Repeat Procedure 4 with the milliam- meter connected, in turn, to the following circuit positions: Fig. 8-2 mAdc d) Substitute the applied voltage and the circuit current measured in (c) into the Ohm's Law formula and calculate the total circuit resis- mAdc %3D tance, R. IRA-PS mAdc b) Compare the current values at the differ- ent circuit locations. Are they the same? R %3D T(calculated)

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b) Measure the total circuit resistance R, R, 0-10mAdc with the ohmmeter. mA 1K 1K RT (circuit) c) Does the total circuit resistance value, 0-25Vde R, agree with the results of Procedure 1, 1.5K R, (circuit) (c) and (d)? Explain. 1.5 K R4 Fig. 8-3 3. a) Connect the circuit shown in Fig. 8-2. Note that the ammeter, set to the 0-10mAdc range, is connected between resistor R1 and the power source. e) Does the total calculated circuit resis- tance value, RT (caleulatedi agree with the result of Procedure 2 (b)? b) Turn on the power source and adjust to 25Vdc. c) How much circuit current is indicated f) Return the voltage to zero and turn off by the milliammeter? the power source. mAdc 4. a) Connect the milliammeter between R, and R2 as shown in Fig. 8-3. I çcircit) b) Turn on the power source and adjust to O-10MA de 25Vdc. R, c) Measure and record the current flowing mA between R, and R2. 1K IR-R2 mAdc IK R2 0-25Vdc d) Return the voltage to zero and turn off 1.5 K R3 the power source. 1.5 K R. 5. a) Repeat Procedure 4 with the milliam- meter connected, in turn, to the following circuit positions: Fig. 8-2 mAdc d) Substitute the applied voltage and the circuit current measured in (c) into the Ohm's Law formula and calculate the total circuit resis- mAdc %3D tance, R. IRA-PS mAdc b) Compare the current values at the differ- ent circuit locations. Are they the same? R %3D T(calculated)