Basic Engineering Circuit Analysis 11e Binder Ready Version + Wileyplus Registration Card
11th Edition
ISBN: 9781119033431
Author: J. David Irwin, R. Mark Nelms
Publisher: Wiley (WileyPLUS Products)
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Chapter 1, Problem 10P
The charge entering the positive terminal of an element is
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Charge entering the positive end of an element q = 5 sin (4π t) mC while your element voltage at the ends of v = 3 cos (4π t) V given as. Transferred to the element in the range of 0 to 0.6 s Calculate the energy.
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Chapter 1 Solutions
Basic Engineering Circuit Analysis 11e Binder Ready Version + Wileyplus Registration Card
Ch. 1 - If the current in an electric conductor is 2.4 A,...Ch. 1 - Determine the time interval required for a 12�A...Ch. 1 - A lightning bolt carrying 30,000 A lasts for 50...Ch. 1 - If a 12-V battery delivers 100 J in 5 s, find (a)...Ch. 1 - The current in a conductor is 1.5 A. How many...Ch. 1 - If 60 C of charge pass through an electric...Ch. 1 - Determine the number of coulombs of charge...Ch. 1 - Five coulombs of charge pass through the element...Ch. 1 - The current that enters an element is shown in...Ch. 1 - The charge entering the positive terminal of an...
Ch. 1 - The charge entering the positive terminal of an...Ch. 1 - Prob. 12PCh. 1 - The power absorbed by the BOX in Fig. Pl. 13 is...Ch. 1 - The power absorbed by the BOX in Fig. Pl. 14 is...Ch. 1 - The energy absorbed by the BOX in Fig. P1.15 is...Ch. 1 - The charge that enters the BOX in Fig. P1.16 is...Ch. 1 - The energy absorbed by the BOX in Fig. Pl. 17 is...Ch. 1 - The charge entering the upper terminal of the BOX...Ch. 1 - The energy absorbed by the BOX in Fig. Pl. 19 is...Ch. 1 - Determine the amount of power absorbed or supplied...Ch. 1 - Calculate the power absorbed by element A in Fig....Ch. 1 - Calculate the power supplied by element A in Fig....Ch. 1 - Element A in the diagram in Fig. PI .23 absorbs 30...Ch. 1 - Element B in the diagram in Fig. P1.24 supplies 60...Ch. 1 - Element B in the diagram in Fig. PI .25 supplies...Ch. 1 - Element B in the diagram in Fig. Pl.26 supplies 72...Ch. 1 - (a) In Fig. Pl.27 (a), P1=36W. Is element 2...Ch. 1 - Two elements are connected in series, as shown in...Ch. 1 - Element 2 in Fig. Pl.29 absorbed 32W. Find the...Ch. 1 - Choose Is such that the power absorbed by element...Ch. 1 - Find the power that is absorbed or supplied by the...Ch. 1 - Find the power that is absorbed or supplied by the...Ch. 1 - Compute the power that is absorbed or supplied by...Ch. 1 - Find the power that is absorbed or supplied by...Ch. 1 - Find Ix in the network in Fig. P1.35.Ch. 1 - Prob. 36PCh. 1 - Find the power absorbed or supplied by element 1...Ch. 1 - Find the power absorbed or supplied by element 3...Ch. 1 - Find the power absorbed or supplied by element 1...Ch. 1 - Find Vx in the network in Fig. P1.40 using...Ch. 1 - Find Ix in the circuit in Fig. P1.41 using...Ch. 1 - Is the source Vs in the network in Fig. P1.42...Ch. 1 - Find I0 in the network in Fig. P1.43 using...Ch. 1 - Calculate the power absorbed by each element in...Ch. 1 - Calculate the power absorbed by each element in...Ch. 1 - In the circuit in Fig. P1.46, element 1 absorbs 40...
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- Find the energy delivered to an element between 0 and 8 ms if the charge entering the positive terminal is q = 10 cos 125 πt mC and the voltage is v = 6 sin 125 πt Varrow_forwardThe electric charge that moves through a conductor varies in accordance with the equation q = 800t, where q and t are given in µcoulombs and milliseconds, respectively. Calculate the current in ampere.arrow_forwardAt 300 K temperature, the electron mobility for Si is 1400 cm2/Vs. If an electric field of 20 V/m is applied from the outside, estimate the drift velocity of the electrons inside the Si.arrow_forward
- If the function f(t) is the current in amperes entering the positive terminal of an element at time t (seconds), find (a) the total charge that has entered between 4 and 9 s, (b) the charge entering at 8 s, and (c) the current at 1,5, and 8 s. Take the charge to be 0 at t = 0 .arrow_forward1. Determine the current flowing through an element if the charge flow is given by:arrow_forwardThe total charge entering a terminal is given by q = 2e3t cos (6\pi t), in µC. Determine the current at t= 0.25 s.arrow_forward
- A cylindrical copper wire transmits a charge of 360 °C in 10 minutes. Copper contains 8.5x10^28 free electrons per cubic meter. If the radius of the wire is 1mm, what is the drift velocity of the electrons (in mm/s)? (take e=1.6x10-19C, pi=3!)arrow_forward1. Determine the current flowing through an element if the charge flow is GIVEN BY: (CHECK ATTACHED PHOTO)arrow_forwardThe charge entering the positive terminal of an element is q = 6 sin(4πt) mC, while the voltage across the element (plus to minus) is v = 6 cos(4πt) V. Calculate the energy delivered to the element between 0 and 0.6 s. in mJarrow_forward
- What is the scalar electric field strength 5 mm away from a +40 uC point charge in a material with permittivity of 44.271 pF/m? Answer in GN/C in 3 decimal placesarrow_forwardIf a line charge of -16 nC/m is at x = -6 m and y = 4 m, find the electric field intensity E at G(-2, 7, 9). QUICKLY PLEASE ANSWER IN 3 DECIMAL PLACE WILL UPVOTEarrow_forward1.An aluminum wire having a radius of 8.97 mm and carrying a current of 6.43 mA is connected in a circuit. What is the drift speed of the electrons carrying this current? The density of electrons in an aluminum is 6.02×10^28 electrons/m^3. There is one conduction electron per atom in aluminum. Note: elementary particle charge e=1.602×10^−19 As Answer: __________ ×10^−8m/s 2. A potential difference of 14.99 V is applied across a wire of cross-sectional area 3.41 mm^2 and length 1,095 km. The current passing through the wire is 3.7 ×10^−3 A. What is the resistivity of the wire? Answer: _________ ×10^−8Ωm The temperature coefficient of resistivity for copper is 0.0068(C∘)^−1. If a copper wire has a resistance of 104 Ω at 23.26°C, what is its resistance 73.37°C? Answer: ________ V/m answer 1,2,3arrow_forward
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