Given the circuit of Figure (1), find the following quantities: a. Total resistance, RT b. Voltages V2 and V4 c. Currents IT, I1, and 12
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- 2:34 ull 4G I moodle1.du.edu.om An RTD forms one arm of a Wheatstone bridge as shown in the figure. The RTD is used to measure a temperature with the bridge is operated in a balanced mode. The RTD has a resistance of 252 at a temperature of 0°C and a thermal coefficient of resistance a=0.003925C-1. The value of the variable resistance R, must be set to 41.485 Q to balance the bridge circuit. Determine the temperature measured by the RTD where R2=R3=1002 R2 R3 RTD RRTD E, Select one: O a. 4200In the figure the current in resistance 6 is i = 1.43 A and the resistances are R₁ = R₂ = R3 = 1.68 2, R₂ = 15.1 Q2, R5 = 7.41 Q2, and R6 = 4.57 2. What is the emf of the ideal battery? E www R₁ O a. 25.7V O b. 52.3 V O C. 47.2 V O d. 21.4 V O e. 6.54 V R3 www R₂ www R₁ R₂ 16 R6Eлample (1) For the series-parallel arrangement shown in Figure below, find: a) The supply current. I ?. b) The current flowing through each resistor. c) The p.d. across each resistor. R3 2.50 40 Ri R4 RE I ? 200V
- What is the load current for the circuit shown in the figure? Please choose one: a. 9.0 mA b. 7.5 mA c. 3.0 mA D. 6.0 mABasic Electrical EngineeringDraw symbols of electrical components. Note: You may use both IEC and NEMA symbols. - Conductors crossing but not connected- Conductors crossing and connected - DC source other than battery- DC generator- AC voltage source- Ideal current source- Ideal Voltage Source- Current Controlled Current Source- Current Controlled Voltage Source- Voltage Controlled Current Source - Voltage Controlled Voltage SourcePlease help me solve for the total resistance, total current, and individual voltage if: VT = 30 VR1 = 7 ohmsR2 = 10 ohmsR3 = 6 ohmsR4 = 4 ohmsR5 = 8 ohmsR6 = 9 ohmsR7 = 5 ohmsR8 = 12 ohmsR9 = 3 ohmsR10 = 8 ohms
- For the series-parallel arrangement shown in the Figure below, find (a) the supply current, (b) the current flowing through each resistor and (c) the p.d. across each resistor (d). power dissipated by each resistor.Two resistors A and B are connected in series with a 220-V DC source. a voltmeter with an internal resistance of 10k Ohms is connected across resistor A, the instrument reads 100V and when connected across resistor B, it reads 80V. Find the value of the two resistances in series. please show complete solution.The diagram in the figure shows a simple circuit consisting of a battery and a load consisting of two resistors.The battery voltage is UB = 56 V and the value of the resistors is:R1 = 1800R2 = 5400a) The ammeters in the circuit show the following value:A1 shows valueA2 shows valueA3 shows valueb) In the load, the effect developsc) The total resistance of the load is
- Please help me solve for the total resistance, and total current if:Vt = 20 VR1 = 2 ohmsR2 = 5 ohmsR3 = 7 ohmsR4 = 8 ohmsR5 = 3 ohmsR6 = 4 ohmsR7 = 9 ohmsR8 = 6 ohmsR9 = 10 ohmsR10 = 7 ohmsSuppose the three branch currents in this circuit are I₁ = -3 A, I₂ = -18 A, and I3 = -15 A. The voltage drop across each circuit element is as given in the table below. From this information, determine, for each of these circuit elements, (i) whether an active or passive sign convention is being used for that element, (ii) whether that element is absorbing or producing a net (positive) amount of electrical power. In each answer box within the table below, type the correct choice from among the bold-faced words above. V₂ B A B A C D 1₁ A B 1₂ 1₂ + Circuit element Voltage drop Sign convention? Absorbing or producing net electrical power? -9 V -2 V C 9 V -11 V DRefer to the circuit on the right. VEB = 0.7 V, when the BE junction is conducting. VECsat = 0.2 V B Vref = 2.2 V (Use two decimal places.) = ∞ VREF IL +5 V R LOAD Figure 2 a. What should be the value of R in ohms if IL is to be maintained at 146 mA under changing load conditions? b. In order to maintain this load current, what should be the maximum allowable load resistance in ohms?