6. Calculate the voltage drop across resistor R5 using Kirchhoff's Law. Vdc ERs Your calculated value should be twenty one point twenty five Vdc. 7. Enter your calculated voltage drops in Table 3- 2. 8. Calculate the resistance of resistor R5 using the circuit current and calculated voltage drop across resistor R5. Enter your calculated value of resistor R5 in Table 5- 2. Rs TY

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6. Calculate the voltage drop across resistor R5 using Kirchhoff's Law.
Vdc
Ers
Your calculated value should be twenty one point twenty five Vdc.
7. Enter your calculated voltage drops in Table 3- 2.
8. Calculate the resistance of resistor R5 using the circuit current and calculated
voltage drop across resistor R5. Enter your calculated value of resistor R5 in Table
5- 2.
Rs
Your calculated value should be eight thousand five hundred ohms.
9. Measure the voltage drops across R1, R2, R3 and R5.
Vdc
ERI =
Vdc
Vdc
Vdc
Er2 =.
ER3 =
ERs =
EDIFICA
10. Enter the measured voltages in Table 4- 2.
ERI
ER2
ER3
Vdc
ERS
R5
Vdc
Vdc
Vdc
Ω
CALCULATED
MEASURED
Table 4 – 2
11. Calculate the resistance of R5 using the circuit current and measured voltage
drop across resistor R5.
R5
Compare your calculated and measured voltages and resistances. Are
they in agreement?
12. Adjust resistor R5 until the milliammeter indicates a current flow of 5mAdc.
Il||
Transcribed Image Text:6. Calculate the voltage drop across resistor R5 using Kirchhoff's Law. Vdc Ers Your calculated value should be twenty one point twenty five Vdc. 7. Enter your calculated voltage drops in Table 3- 2. 8. Calculate the resistance of resistor R5 using the circuit current and calculated voltage drop across resistor R5. Enter your calculated value of resistor R5 in Table 5- 2. Rs Your calculated value should be eight thousand five hundred ohms. 9. Measure the voltage drops across R1, R2, R3 and R5. Vdc ERI = Vdc Vdc Vdc Er2 =. ER3 = ERs = EDIFICA 10. Enter the measured voltages in Table 4- 2. ERI ER2 ER3 Vdc ERS R5 Vdc Vdc Vdc Ω CALCULATED MEASURED Table 4 – 2 11. Calculate the resistance of R5 using the circuit current and measured voltage drop across resistor R5. R5 Compare your calculated and measured voltages and resistances. Are they in agreement? 12. Adjust resistor R5 until the milliammeter indicates a current flow of 5mAdc. Il||
(SAPIENTIA
TLO 3: Verify that the sum of the individual voltage drops around a series circuit is equal
to the applied voltage.
UN
1. Disconnect resistor R4 from the circuit.
2. Connect R5, the 10kN potentiometer, with a jumper wire connecting terminals 2
and 3, into the circuit in place of resistor R4 as shown in Fig. 4-2.
Resistor R5 is a potentiometer wired as a rheostat. Rheostats and
potentiometers will be investigated in a later laboratory exercise. During this
Exercise Procedure you only have to know you can vary the resistance of R5
between 0 and 10 000 ohms.
R1
1K
mA
0- 10mAdc
R2
1K
0 - 30Vdc
R5
10K
Fig. 4 – 2
IO CITY
3. Adjust the power source to 30Vdc.
4. Adjust resistor R5 until the milliammeter indicates a current flow of 2.5mAdc.
5. Calculate the voltage drops across resistors R1, R2, and R3 using Ohm's Law.
Vdc
ERI
Vdc
Er2
Vdc
ER3
EDIFICAT
II||
Transcribed Image Text:(SAPIENTIA TLO 3: Verify that the sum of the individual voltage drops around a series circuit is equal to the applied voltage. UN 1. Disconnect resistor R4 from the circuit. 2. Connect R5, the 10kN potentiometer, with a jumper wire connecting terminals 2 and 3, into the circuit in place of resistor R4 as shown in Fig. 4-2. Resistor R5 is a potentiometer wired as a rheostat. Rheostats and potentiometers will be investigated in a later laboratory exercise. During this Exercise Procedure you only have to know you can vary the resistance of R5 between 0 and 10 000 ohms. R1 1K mA 0- 10mAdc R2 1K 0 - 30Vdc R5 10K Fig. 4 – 2 IO CITY 3. Adjust the power source to 30Vdc. 4. Adjust resistor R5 until the milliammeter indicates a current flow of 2.5mAdc. 5. Calculate the voltage drops across resistors R1, R2, and R3 using Ohm's Law. Vdc ERI Vdc Er2 Vdc ER3 EDIFICAT II||
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