Chapter 27, Problem 030 Your answer is partially correct. Try again. In the figure the ideal...
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 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
In the figure the ideal batteries have emts E1 13.0 V and E2 = 0.500 EI, and the resistances are each 3.39 Ω. what is the value of current in (a) resistor 2 and (b) resistor 3? RI 12 (a) Number Units (b) Number Units
Chapter 27, Problem 032 Your answer is partially correct. Try again. Both batteries in Figure (a) are ideal. Emf 1 of battery 1 has a fixed value, but emf 2 of battery 2 can be varied between 35.0 V and 350.0 V. The plots in Figure (b) give the currents through the two batteries as a function of 12. The vertical scale is set by is = 0.48 A. You must decide which plot corresponds to which battery, but for...
Chapter 27, Problem 035 Your answer is partially correct. Try again. In the figure ε-15.0 V, Ri-2000S, R2-2150 Ω, and R3-3600 Ω. What are the potential differences (in V) (a) VA-V, (b) Vo - Vc, (c) Vc -Vo, and (d) VA- Vc? Rg (a) Number 11.8 (b) Number (c) Number (d) Number Click if you would like to Show Work for this question: units
Chapter 27, Problem 057 Your answer is partially correct. Try again Switch S in in the figure is closed at time t = 0, to begin charging an initially uncharged capacitor of capacitance C = 15.2 μF through a resistor of resistance R-20.7 Ω. At what time is the potential across the capacitor equal to that across the resistor? Number TT0.4 UnitsT ms
PRINTER VERSION。. BACK NEXT FULL SCREEN Chapter 27, Problem 041 Your answer is partially correct. Try again. In the figure ε,-2.55 v, ε2 = 0.907 v, R1 = 3.81 Ω, R2-2. 13 Ω, R3 = 3.78 Ω, and both batteries are ideal. What is the rate at which energy is dissipated in (a) R, (b) R2, and (c) Rs? What is the power of (d) battery 1 and (e) battery 27 R2 unit (a) Number To.55 (b) Number|[0.0165 (c) Numbero.32...
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 21, Problem 030 Your answer is partially correct. Try again. In the figure particles 1 and 2 are fixed in place on an x axis at a separation of L 9.10 cm. Their charges are 1 +2 and 92 27e Particle with charger, +4es。 placed on the line between particles 1 and 2, so that they produce a net electrostatic force F3.net on it. (a) At what coordinate should particle 3 be placed to minimze the magnitude of that...
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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