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Problem-3. Kirchhoff Rules. Consider the circuit shown in the figure. Using Kirchhoff's rules, solve for I....
Please show work! Problem-3. Kirchhoff Rules. Consider the circuit shown in the figure. Using Kirchhoff's rules, solve for I, 12 and 13. Note, when setting up equations, label in the circuit which loop you are talking about, which point you start from, etc. 10V 1522 15V I, 522 I, 3 1, ma 1022
Problem-4. Kirchhoff Rules. If the ammeter shown in figure reads 0.3 A, what are the currents I, 1; and the battery ? Note, when setting up equations, label in the circuit which loop you are talking about, which point you start from, etc. 10V 0.502 w 0.312 1, E A 1012
Please show work! Problem-4. Kirchhoff Rules. If the ammeter shown in figure reads 0.3 A, what are the currents IĮ 12 and the battery £? Note, when setting up equations, label in the circuit which loop you are talking about, which point you start from, etc. 10V 0.522 m - I I. 0.392 1 E I (A 1022
-19 points My Notes For the circuit shown in the figure below, use Kirchhoff's rules to obtain equations for the upper loop, the lower loop, and the node on the left side. In each case suppress units for clarity and simplify, combining like terms. (Use the following as necessary 11812, and 136.) 180 00 HA W 120 V 700 11.00 w 5.000 360 (a) the upper loop (b) the lower loop (c) the node on the left side (d) Solve...
Consider the circuit below. (a) Using Kirchhoff's rules, determine electric currents in all of the branches. Make sure to clearly label each of the currents on the diagram. (b) Calculate the amount of power dissipated by the 6 Ohms resistor. 1.12 2.12 3.12 5V 10V 6123 20V
Data table 1 laboratory 34 Kirchhoff's rules I saw another example on how to solve this but answers are just different. the resistors we used were 100, 150, 220 etc not the one on diagrams La Performs 34 LABORATORY 14 Kirchhoff's Rules LABORATORY REPOR Data Table 1 Power Supply Voltages 61 = _10.0 v Calculations Table 1 Kirchhoff's rules for the circuit (1) KCR- (2) KVR1- (3) KVR2- 225.00 v Theoretical Current (mA) % Error Experimental to Theoretical Current Resistor...
Consider the circuit shown in the figure, where 1 = 21.7 V, 2 = 14.3 V, and R = 12.0 Ω. I'm not sure I understand Kirchhoff's Law and how to apply it to a problem like this. Consider the circuit shown in the figure, where & - 21.7 V, E- 14.3 V, and R 12.00. (Due to the nature of this problem, do not use rounded intermediate values in your calculations-including answers submitted in WebAssign.) 28.0 12.0 (a What...
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...
Shown in the figure below is an electrical circuit containing three resistors and two batteries. RA R3 4 10 L w R2 13 Write down the Kirchhoff Junction equation and solve it for I, in terms of Iz and 13. Write the result here: 11 = Write down the Kirchhoff Loop equation for a loop that starts at the lower left corner and follows the perimeter of the circuit diagram clockwise. 0 = Write down the Kirchhoff Loop equation for...
Shown in the figure below is an electrical circuit containing three resistors and two batteries. R 13 10 R2 + 12 R1 4 I Write down the Kirchhoff Junction equation and solve it for Ij in terms of Iz and 13. Write the result here: 11 = Write down the Kirchhoff Loop equation for a loop that starts at the lower left corner and follows the perimeter of the circuit diagram clockwise. Write down the Kirchhoff Loop equation for a...