Related questions
Question
Transcribed Image Text:When resistors 1 and 2 are connected in series, the equivalent resistance is 17.1 Q. When they are connected in parallel, the
equivalent resistance is 2.93 Q. What are (a) the smaller resistance and (b) the larger resistance of these two resistors?
(a) Number
i
Units
(b) Number
i
Units
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by stepSolved in 2 steps with 2 images
Knowledge Booster
Similar questions
- The circuit shown consists of four resistors and a 48 Volt power supply. Resistance values are shown in ohms. You do not have to "solve" the circuit. Below the circuit diagram is a table of "solutions". The volts and amps for each resistor is listed. Calculate the current that moves through the segment of wire between points "A" and "B". 48 V В 60 Q 66 Q 220 2 12.5 2 V (V) I (A) R (2) 15 1.20 12.5 33 0.15 220 33 0.55 60 33 0.50 66 Lenovo Home End Insert Delete 画 E11 F12arrow_forwardConsider an electrical circuit comprising a battery with voltage V that provides a current I through a resistor network with resistor R1 in series with the parallel combination of R2 and R. Calculate the value of R if: V I R1 R2 2.40E+01 2.40E-01 7.50E+01 5.00E+01 Make sure to express your answer in scientific notation with 2 decimal points.arrow_forwardThree resistors are connected as shown to a battery. The value of the resistors are: R1 = 1.25KΩ R2 = 1.5kΩ and R3 = 3kΩ. The battery voltage is measured to be 45V. (i) What is the equivalent resistance for the circuit? (ii) What is the voltage drop over R2?arrow_forward
- A student connects two resistors with unknown resistance values in series, and notes that the equivalent resistance R the equivalent resistance to be Rp = 140 02. What are the resistances (in 2) of each resistor? Ω Ω smaller resistance larger resistance Need Help? Read It THER = 660 Q. She then connects the same two resistors in parallel, and measuresarrow_forwardThe circuit below contains two real batteries, each having significant internal resistance. Battery #1 has an EMF of 6.00 V and an internal resistance of 1.00 ohm. Battery #2 has an EMF of 12.00 V and an internal resistance of 2.00 ohms. These two batteries are connected in series with two resistors R, = 6.00 ohms and R,= 3.00 ohms. ri d (6.00,V) (1.00 0) R1 (6.00 N) R2 (3.00 N) a r2 E2 (2.00 Q) (12.00 V) 18. The current in the 12.00 Volt battery is equal to C. 0.500 A. A. 0.750 A. B. 1.00 A. D. 2.00 A. E. 1.50 A. 19. The potential difference across the terminals of battery #1 from point C to point d is equal to C. 7.00 V. A. 5.50 V. B. 6.00 V. D. 5.00 V. E. 6.50 V. 20. The potential difference across the terminals of battery #2 from point a to point b is equal to C. 13.00 V. A. 14.00 V. В. 10.00 V. D. 11.0 V. E. 12.00 V.arrow_forward
arrow_back_ios
arrow_forward_ios