answer all asap please. I will rate you up! III. Experiment In this experiment you will...
Experiment 3. Application of Kirchhoff's Current Law (KCL) 1) Construct the circuit shown below on TinkerCAD and include a copy of the circuit in your report. I 12 N I 1 ΚΩ +4 v 470 22 N2 2) Use TinkerCAD multimeter to measure currents I1, I2, I3 and voltage across Ny and N2. Note: Multimeter must be in series in order to measure current. 3) Use KCL to derive an equation relating I1, I2, and 13 and verify that values...
Please help me solve for Calculations table 2 using the values
in Data Table 2, not the diagram the set up is shown in figure34-4.
Thank you
34 LABORATORY 3 4 Kirchhoff's Rules LABORATORY REPORT Data Table 1 Power Supply Voltages V 5.00 V & =_10.00 Calculations Table 1 Kirchhoffs rules for the circuit (1) KCR- (2) KVR1- (3) KVR2- E2 Theoretical Current (mA) % Error Experimental to Theoretical Current Resistor Values (9) Ri= 462 R2= 750 R3 = 1008...
Pre-lab EM-5 Ohm's Law and Kirchhoff's Rules Ohm's Law The resistance R of a device can be determined by either directly measuring the resistance using an ohmmeter, or by measuring the current I through it and the voltage Vacross it, and then calculating R using Ohm's Law V R= (1) If the voltage across a resistor is 10V, and the current passing through it is 2.5 mA. of the resistor? What is the resistance R= Ω. Kirchhoffs Loop Rule Around...
I don't understand how the answer for I1=7.99, I2=1.75, &
I3=6.24 as theoretical current. Use the number provided in the data
table not the diagram! Thank you
34 LABORATORY 3 4 Kirchhoff's Rules LABORATORY REPORT Data Table 1 Power Supply Voltages V 5.00 V & =_10.00 Calculations Table 1 Kirchhoffs rules for the circuit (1) KCR- (2) KVR1- (3) KVR2- E2 Theoretical Current (mA) % Error Experimental to Theoretical Current Resistor Values (9) Ri= 462 R2= 750 R3 = 1008...
please solve these 2 problems. I will rate you up
In the circuit shown below, let V. - 3 V.1. - 1 mA, R-3k, Ry - 2.5 kA, R = 1 kq Use mesh analysis to find mesh currents I, and 12. Also, find Vı. R1 V1 R2 W 2 is len 3kR 12 R3 100 IMA Problem 5 In the circuit shown below, let V, -8 V, 1. - 2 mA, R2 = 1 k 2, R2 = 400,...
please answer both 4 and 5 if possible thank you
Multi-loop complex circuits: In All the circuit problems below, use Kirchhoffs Law. The use of Kirchhoff's law greatly simplifies the circuit problem especially with multi loop cireuits. 4. (a) Calculate the currents I, Iz and the emf of the battery e in the circuit below (0.71 A. 2.3 A and 19 Vrespectively) ) Calculate the voltage and power dissipated across the 4.5 resistor (10 V and 24 W) 3.00 4.5Q...
please help with problems 7 and 8, I am extremely
confused!
Part 2: Kirchhoff's Rules For the circuit shown below, the directions of the currents through the circuit elements has been chosen arbitrarily. Using Kirchhoff's rules, you will determine the actual currents through the circuit elements. (Yes, this circuit could be analyzed using equivalent resistance, but don't do it that way.) R1: 752 Kirchhoff's Junction Rule 4) Start by choosing a junction. Write Kirchhoft's Junction rule for that junction below...
please help with equations 1, 2 and 3. I am confused!
act. - approx 1.1001 act 3) Now let's try it out! Use the provided resistors, wires, and bumseries to create the circuit shown above Measure the equivalent resistance with the multimeter. Then connect the circuito current meter den the battery. Record the current through the battery give a least 2 sificat) View Video and then powse it once you have recorded the current below. Now calculate the percent Ro...
i dont undersrand how to calculate the values from measured
data?
2. Turn on the DC power supply, measure its output voltage with DMM2 and record it as measured data Vs in Table 6. 3. Use DMM2 to measure the voltages V, V2.V. Va across R R. RR respectively. Use DMMI to measure the current Is (notice: Is=1= 12 + 1,-1). Record the measured values of I, and V., V2, V3. V4 in Table 6. 4. Turn off the DC...
please answer this question
:
parts a b c d e.
i will give you thumbs up!
We have the circuit shown here... R2 R3 2 3 1 83 In this figure, the EMF sources and resistors take the following values 3 5.00 v " R1-6.00 Ω . R2 , 1.00 Ω . R3-7.00Ω and the currents 1, 12 and Ig have the directions indicated. a. Reproduce this figure on your page replacing the values for £1, 82, , R1,...