Examine the following circuit (values provided directly to its right). SHOWING ALL WORK, Determine: a) The...
. In the following circuit, find: SHOW ALL WORK (a) the power provided by the battery (b) the current through the 35Ω resistor. (c) the voltage drop across the 250Ω resistor. 150 Ohms ΜΗ 12 V 250 Ohms 75 Ohms 35 Ohms
Please answer the following question and show all work: Problem 2: a) Consider the circuit below. If the potential of the battery is V = 120 V, determine the power consumption of each resistor. A 500 w 1003 $10009 D с b) You have three resistors with values 52, 10 92 and 152, respectively. Show how you would connect all three of them such that the equivalent resistance to be: i) 112 ii) 13.752 iii) 2.732
show all work including signifcant digits 1) Examine the following circuit diagrams. Include the missing values requested and justify your answers (which law are you using? Why? How?) a) Measurement Value Justification centra Voltage of Source (V.) 12 V Given RI 1.5 A Given Current through R, ( Voltage of R, (V) Current through R, (13) 4.0 V Given RZ } Current through Source (1) Voltage of R, (V.) b) Measurement Value Justification v 6.0 V Given 3.0 A Given...
Please show all work and equations needed to solve for the theoretical values. Problem 12 (lab) Determine the equivalent resistance of the circuit, the current through each resistor, and the corresponding voltage drop. Simulate the circuit using PHET's Circuit Construction Kit Determine the percent error in the current and voltage values obtained, treating the PHET values as experimental. 50.0 V mu 14.012 m. 7.00 12 27.00 S2 14.012 M 10.012
Question 3. Unregulated supply Rz IL Vin IR Ib (a) The circuit on the right shows a series regulator connected to the output of an unregulated power supply. The transistor has B =50, and a 6 volt Zener diode is used. When the load current, Il, is 1 amp the de input voltage from the unregulated supply, Vin, is 11 volt, VBE = 1 volt and the Zener diode current, Iz, is 20 mA. For these conditions, calculate Iz (i)...
Part II: Wheatstone Bridge Procedure: 1) Before connecting the circuit, use the multimeter as an ohmeter to verify the values of all the resistances. Use the voltmeter measure the terminal voltage of the battery. Use these measured values in all calculations. R1 = 100 Ω R2 = 200 Ω R3 = 300 Ω R4 = 200 Ω R5 = 20 Ω ξ = 6 V Connect the circuit shown using the multimeter as the ammeter. 2) Use a voltmeter to...
A student is provided with a 12.0-V battery of negligible internal resistance and four resistors with the following resistances: 100 Ohms, 30 Ohms, 20 Ohms, and 10 Ohms. The student also has plenty of wire of negligible resistance available to make connections as desired. 1. Using all of these components, draw a circuit diagram in which each resistor has nonzero current flowing through it, but in which the current from the battery is as small as possible. 2. Using all...
The below figure shows a series resonant circuit energised by a sinusoidal 10V rms source. In all calculations below, use approximations if they are appropriate. (i) What is the resonant angular frequency of the circuit with the component values as given above? (ii) What is the Q factor of the circuit? (iii) What are the half-power angular frequencies of the circuit? (iv) What current passes through the 30 resistance at resonance? A resistor of 6 is now connected between terminals...
Tutorial: Analyzing Circuits V 3. Consider the circuit on the right where &:= 6.0V, E2 = 10.0V, Ez = 20.0V, R. = 8.002, R2 = 10.012, and R3 = 15.012. A. Find the current going through each resistor. R3 B. Suppose R, is a fuse which burns out due to a sudden surge of current, thus, it essentially becomes an open switch. How do the currents change after this? i. Current through R, ii. Current through R2 iii. Current through...
2. (25 points) In the circuit below, determine the current through each resistor and the charge stored in each capacitor (i) right after the switches are closed and (ii) long after the switches are closed. 322 4.5 3с. R s 4V V