Chapter 27, Problem 032 Your answer is partially correct. Try again. Both batteries in Figure (a)...
Your answer is partially correct. Try again. In the figure 84 = 6.01 V, 82 = 12.9 V, R1 = 227 2, and R2 = 113 1. What are the (a) magnitude and (b) direction of the current through resistance 1, the (c) magnitude and (d) direction of the current through resistance 2, and the (e) magnitude and (f) direction of the current through battery 2? RE 18, RS (a) Number 150 Units mA (b)! down (c) Number 169 Units...
Chapter 27, Problem 044 Your answer is partially correct. Try again. 6.00 V. (a) what is the equivalent resistance? What is i in (b) resistance 1, In the figure R1-140 ?, R2-R3-67.0 ?, R4-102 ?, and the ideal battery has emf ? c) esistance 2, (d) resistance 3, and (e) resistance 4? Ri Ri Rs (a) Numbef T165.22 (b) Number 0.0429 (c) Number (d) Numbe (e) Number R UnitsTg Units Units Units
Chapter 27, Problem 072 Your answer is partially correct. Try again. In the figure the ideal battery has emf τ-32.1 V, and the resistances are R: R: 29 Ω, R: R: R: 8.6 Ω, R6·2.2 Ω, and R7 = 2.62. What are currents (a);, (b)14, (c),, (d), and (e)s? R7 Rs (a) Number 1.72 (b) Number 18.2 (c) Number [8.9 (d) Number 2.17 (e) Numbe Sons, Inc, All Rights Reserved. A Division of
Chapter 27, Problem 030 Your answer is partially correct. Try again. In the figure the ideal batteries have emfs E1 = 7.0 V and E2 = 0.500 EI, and the resistances are each 4.36 Ω, what is the value of current in (a) resistor 2 and (b) resistor 3? (a) Number тв (b) Number Units Units
Chapter 31, Problem 034 GO Your answer is partially correct. Try again. In the figure, an ac generator with emf E = Em sin mot, where Em = 25.5 V and ad = 372 rad/s, is connected to a 4.48 uF capacitor. (a) What is the maximum value of the current? (b) When the current is a maximum, what i increasing in magnitude, what is the current? the emf of the generator? (c) When the emf of the generator is...
Chapter 27, Problem 023 Partially correct answer. Your answer is partially correct. Try again. In the figure R1 = 130 Ω, R2 = 50 Ω, and the ideal batteries have emfs ε1 = 6.0 V, ε2 = 5.0 V, and ε3 = 4.0 V. Find (a) the current in R1, (b) the current in R2, and (c) the potential difference between points a and b. R2 8 R w
Chapter 22, Problem 032 Your answer is partially correct. Try again. In the figure positive charge q = 7.80 pC is spread uniformly along a thin nonconducting rod of length L = 16.0 cm. What are the (a) x-and (b) y. components of the electric field produced at point P, at distance R = 4.00 cm from the rod along its perpendicular bisector? (a) NumberTo Unit T N/C or V/m (b) Number 17.3 UnitsT N/C or V/m
Please be sure of your answer! Your answer is partially correct. Try again. 1.34 A and the resistances are R1-R2-R3 2.04 Ω, R4-15.5 Ω, R5-707 Ω, and R6-3.08 O. what is the emf of the ideal battery In the figure the current in resistance 6 is i6 Ri R2 Rs 16 8 UnitsT v Number 136.16
Chapter 27, Problem 024 Your answer is partially correct. Try again. In the figure Ri-R2-4.50 ? and R3-2.55 ?. Find the equivalent resistance between points D and E. (Hint: Imagine that a battery is connected across those points.) R2 Rg Number Un the tolerance is +/-296
In Figure (a), both batteries have emf ε = 1.70 V and the external resistance R is a variable resistor. Figure (b) gives the electric potentials V between the terminals of each battery as functions of R: Curve 1 corresponds to battery 1, and curve 2 corresponds to battery 2. The horizontal scale is set by Rs = 0.200 Ω. What is the internal resistance of (a) battery 1 and (b) battery 2? 0.85 R V(V) 0 R -0.510 R...