Please answer the following question: Problem 2: a) Consider the circuit below. If the potential of...
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
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 50 1003 $10000 D d b) You have three resistors with values 5 22.10 Q and 15 2. respectively. Show how you would connect all three of them such that the equivalent resistance to be 1) 110 11) 13.75 uli2.732
explain the answer a little please 1. Given the circuit below, determine the current through each of the resistors and the power used by resistor 3. (20 points) R,-50Ω Battery Voltage is 120 V R2-20 Ω R, 30 2 R, 40 Ω R7-70 Ω R8-80 Ω 9:52v LTE Done Attachment . Given the circuit below, determine the current through each of the resistors and the power used by resistor 3. (20 points) Rs = 50 Ω Battery Voltage is 120...
can you help me answer question #6 please the first circuit was series the second circuit was parallel and the third circuit was both thank you 4) Calculate the EXPECTED voltage through each resistor for each of the circuits (#1, 2) in PART II from the total current and the equivalent resistance. Calculate %error for one your measurements based on the calculated value from this question. 5) Calculate the EXPECTED current THROUGH EACH RESISITOR for each of the circuits (#1,...
7. Circuits for 15 points: Five 20k12 resistors are placed in the following circuit with two 100V DC power supplies. (a) Identify all series and parallel circuit equivalents that you can find. Calculate these equivalent resistance values. (b) Now you assemble a different circuit. You connect a 2022 resistor to the positive lead of a 20 V battery, and a 30 resistor to the positive lead of a 10 V battery. The other ends of both the 2012 and 30...
1. In the circuit below, find (a) the current in each resistor, (b) the potential difference across each resistor, and (c) the power dissipated by each resistor. The power delivered by the battery equals the power dissipated by all the resistors. What is the power delivered by the battery? 3.0022 MA 6.00 v 2 2.00 4 .00 22 2.00 22
3. (10 pts) 25 Ω 202 135 V 30Ω In the circuit above, the resistor R dissipates 40 W of power, while the total power drawn from the battery by the icu405 W. Assume that the battery has zero internal resistance (i) what is the voltage, ΔνΑΒ. across the 30Ω resistor? (ii) What is the unknown resistance R? (iii) What is the power dissipated in the 25Ω and 20Ω resistors, respectively?
PHYSICS II: 4) For the circuit shown below, find: a) the equivalent resistance; b) the current through the battery; c) the potential difference across the 10 ohm resistor. 9 p /A we 100C 5) Two resistors with resistances of 12.0 2 and 6.0 are connected in parallel. An 8.0-12 resistor is then connected in series with this parallel combination. An ideal 12.0-V battery is then connected across the series- parallel combination. A) Draw a diagram of this circuit. B) Find...
please answer all 10. What is the current in the 10.0-Q resistor in the circuit in the figure? 10.00 60.0 V 20.0n 20.00 11. What is the current in the circuit shown in the figure when the switch is (a) open and (b) closed? 3.00 5.00 n 24.0 V 1.00 n 3.00 12. Three resistors are connected across a battery as shown in the figure. 192 120. V 192 0 192Q a) How much power is dissipated across the three...
Example 2: Three resistors are connected in parallel as shown. A potential difference of 18.0 V is maintained between points a and b. (A) Calculate the equivalent resistance of the circuit 18.0 V 3.00 (2] 6.00 Ω| 9.00 Ω (B) Find the current in each resistor (C) Calculate the power delivered to each resistor and the total power delivered to the combination of resistors