What is the equivalent resistance of the circuit between the points A & B? I know...
10, A cylindrical copper wire heater (resistivity of 1.7x10" Ωm) has a radius of 0.5 mm and a length of 10 m. What is the current on this wire when it is connected to a voltage source of 120 V? (a) (b) (c) (d) 2.8 A 65 A 52 A 124 A-, ' = 0,2302 天心ー。ソー 520A. 1.120 11. What is the equivalent resistance of the circuit between the points A & B? 2 6 2Ω (d) 9Ω 3Ω 12....
What is the current through the 8 resistor in the cicrcuit in problem 11 of a 12V battery is connected between points A & B? • based off of my answer on #11 11. What is the equivalent resistance of the circuit between the points A & B? (a) (b) (c) (d) 2Ω 6Ω 8Ω 9Ω 3Ω 12. What is the current through the 8 Ω resistor in the circuit in problem 11 if a 12V battery is connected between...
I need help on the second question. The first question has an answer of 6 (B) 11.What is the equivalent resistance of the circuit between the points A & B? (a) 2 Q (b) 6S9 (c) 8Ω (d) 9Ω 12. What is the current through the 8 2 resistor in the circuit in problem 11 if a 12V battery is connected between points A & B? (a) 1.5 A (b) 2 A (c) 0.75A (d) 1.0 A
cylindrical copper wire heater (resistivity of 1.7x109 2m) has a radius of 0.5 mm and a length of 10 m. What is the current on this wire when it is connected to a voltage source of 120 V? 10 A (a) 2.8 A (b) 65 A (c) 52A (d) 124 A
-First, determine the equivalent resistance of this car's electrical circuit. -Second, what is the current in each branch if the applied voltage is a 12 V car battery? (Be sure to track the current to each place it splits!) 2Ω 4Ω A 3Ω 8Ω 6Ω 6Ω B
1) for the combination of resistors shown, find the equivalent resistance between points A and B. Req= __ ohms see figure 3 (attached) 2) for the set up shown, find the equivalent resistance between points A and B. (See figure 4 attached) Req= ___ ohms
2. Find equivalent resistance between terminals A and B. 6Ω 2Ω 4Ω 9Ω 2Ω 4Ω 6Ω
8Ω 4Ω For the circuit shown obtain the Thevenin's equivalent circuit between points "a" and "b" looking into the left and then (i) Find the load resistance Ri for maximum power transfer (i) Find the maximum power Transfer to the load resistance R
Find the equivalent resistance, Rab, between nodes a and b 3Ω 5Ω E 40 2Ω 10
AE-December-2017-16-Elec-A1 Q1 Q1:(a) In the circuit shown in Figure-1, calculate the equivalent resistance at terminals a-b, Rab. [10] b) Calculate the current, IT shown in the circuit. (c) Calculate the current, lo in the 3Ω resistance. 32 I a 2Ω 0 32 92 30V 62 2Ω 4Ω o" Figure-1