Can you help me to solve this question, please:)
Simply apply the basic electrical circuit laws and calculate the values.
Can you help me to solve this question, please:) B1. (a) A DC circuit is shown...
Can you help me to solve question B2 , please:) B1. (a) A DC circuit is shown in Figure Bl. 1092 B A 802 702 1402 18V Figure B1 Calculate (i) the total resistance across A and B (RT); (5 marks) (11) the total current from the DC supply (Is); (3 marks) (111) the potential difference(p.d.) across the 1422 resistor (V149); (2 marks) (iv) the current flowing through 1022 (11092); (3 marks) (v) the power dissipated by RI (PT) (2...
Can you help me to solve question B4 , please:) please B1. (a) A DC circuit is shown in Figure Bl. 1092 B A 802 702 1402 18V Figure B1 Calculate (i) the total resistance across A and B (RT); (5 marks) (11) the total current from the DC supply (Is); (3 marks) (111) the potential difference(p.d.) across the 1422 resistor (V149); (2 marks) (iv) the current flowing through 1022 (11092); (3 marks) (v) the power dissipated by RI (PT)...
Q1. (3 marks) In the circuit shown below, R-1.5KO and the voltage drop across Ri is 4.5V. (1 pt.) A. What is the voltage drop across R? (1 pt.) B. What is the value of the resistance R? (1 pt.) C. What is the power delivered by the source voltage? S Answer: wwiw R Ri Vs=15V Q2. (3 marks) Refer to the circuit below. A. Using the voltage divider law, find the voltage between the points A and B. B....
please show work when solving for this problem. thank you Consider the circuit shown in the Figure. Ri= 2.00 Q, R,= 10.0 1, Rg = 5.000, R4 = 4.00 9, Rş= 3.00 2,8 = 8.00 V. a Calculate the equivalent resistance of the circuit. b) Calculate the total current in the circuit. c) Calculate the voltage drop across the R1 resistor d) Calculate the voltage across the Rs resistor. e) Calculate the current in the Rş resistor. R2 RA R3...
please, answer all questions Question 3 For Figure 1 use Kirchhoff's Laws to find the currents 11, 12 and 13, and find the total resistance of the circuit. Total 10 marks Space to answer Question 3 here RI R; 492 1 1, 192 + + 12 22 B 28 V R2 7V B2 Figure 1: Question 4 a) Two 8k resistors are connected as a potential divider with a supply p.d. of 20 mv. What is the current flowing and...
Question 1 a) Calculate the Effective Resistance of the circuit and total current of the network in figure 1 (5 marks) b) Calculate the Effective Resistance of the Network of Resistors in figure 2 (5 marks) Total 10 marks Space to answer Question 1 here + 9V R 90 92 SRZ 45 32 Rz 180 32 Figure 1: 10 10 102 102 А 320 3202 320 19 B Figure 2 Question 2 a) Explain the assumptions made in the definition...
can someone please help me with this question. I've tried to solve it but I seem to get nowhere. A chopper is used in the regenerative braking of a dc series motor similar to the arrangement shown in Figure Q2. The armature resistance R = 0.02 and the field resistance Rp=0.032. The armature current is maintained at a constant value of la = 200 A The back emf constant Ko = 15.25 mV/A rad s. The dc supply voltage Vs...
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,...
cN you please help me with question 2 t Figure 2.3, reasure RnLİ" İhandl, using the DMM RI R2 F3 94 ns Figure 2.3 Show all computer simulation. For the circuit of Figure 2.3 calculate RT-L 1, la and 13. With V,-10 V. RE-510 R 2.2 kQ, R- 1 k2, R 2. 1 k2, and R,- 2.7 kQ. Show all computer simulation. 3. In this voltage divider circuit of Figure 2.1, the parar ieters are: Total Input Resistance Ri+R) -15...
Please help me answer this 3-part question based on the information that follows, showing work when helpful: a. What is the effective resistance of the resistors you used for number 3? b. Which of your measurements had the smallest relative uncertainty? c. Batteries have an internal resistance, which we have not considered in the lab. How would the internal resistance of your battery affected your calculations for part a? R1=10 KiloOhms, R2=2.2 KiloOhms, R3=1 KiloOhm, E1 and E2 each equal...