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1.15 The current entering the positive terminal of a device is i(t-6e-21 mA and the voltage...
1. The charge entering the positive terminal of an element is given by the expression 900)=-12mC.. The power delivered to the clementis (1)=24W . Compute the current in the element, the voltage across the element, and the energy delivered to the dement in the time interval 0<=<100 ms. 2. The charge that enters the BOX in Fig. H1.2 is shown in the gap below. Calculate and sketch the current flowing into and the power absorbed by the BOX between 0...
any help with the mathcab part? After t 0, the current entering the positive terminal of a flashlight bulb is given by i(t) 2(1-e) (A) and the voltage across the bulb is v(t) 12e-4 (V) . a. Determine the instantaneous power delivered to the flashlight. b. Determine the maximum power level delivered to the flashlight. (S Points it should be done with Mathcad. Determine A if Vout/Vs 9 in the circuit of following figure. 3Ω A1 36 Vout 12 Ω...
Homework 1 A rechargeable flashlight battery is capable of delivering 105 mA for about 15 h. How much charge can it release at that rate? If its terminals voltage is 1.1 V, how much energy can the battery deliver? I. 2. The current entering the positive terminal of a device is )- A and the voltage across the device is v)-5dildr V (a) Find the charge delivered to the device between t-0 and (b) Calculate the power absorbed. (c) Determine...
Given the voltage, v(t), across and the current, i(t), through a device, determine the energy, W, delivered to the device between 1 and 3 msec. N(, v. 11. Act), mA. time, a. 5 m). b.1 m). c. - 1 ml d. 4). e.- 4 u.
15. The charge entering the positive polarity terminal of a circuit element is (t) = 32-2 C and the voltage present across the terminals of the circuit element is v(t) = 5 di(t)/dt. The energy absorbed over the interval 0 ms <t<50 ms is closest to... A 8.548 J F. -16.314 J B. | 13.927 J G. -13.910 J C.-5.310 H. -19.976 J D. -6.633 J I. 21.633 J E. 0.000 J | J. None of the above answers are...
A current i(t) = 220 sin (20pi t) mA is applied to a capacitor of C = 20000/pi mu F, as shown in the figure below: a) Knowing that i(t) = C dv/dt, integrate both sides of the equation to determine the voltage v(t). You may assume that the initial voltage is v(0) = 0.55 Volts. b) Plot one cycle of the voltage v(f) found in part a) and clearly indicate the amplitude, frequency, and period on the plot. Also,...
The figure below shows the current through and the voltage across an element. (a) Sketch the power delivered to the element fort > 0. (b) Find the total energy absorbed by the element for the period of 0 4s. i (mA) 60 4 t(S) v (V) 0 4 t (s)
Find the power delivered to an element at t = pi seconds if the charge entering the positive terminal is q = 8 sin t/4 C and the voltage is v = 6 cos t/4 V
Question 8 the first picture has device D that is used in question 8 a) In the diagram to the left, the current io- 250[mA], and the voltage vo =-25 [V]. How much charge passes through D in 3.6 [sl? electrons going? b) For the current and voltage specified in part a), how much energy D If the current is being carried by electrons, which way are the is delivered to D in 3.6 [s]? Consider the device D shown...
P.3 The voltage across the terminals of a circuit is: v(t) = 30+ 20 cos(1207t +45°)+10 cos(120nt - 459) V and the current entering the terminal is: i(t) = 6+4 cos(120wt +10°) - 2 cos(120ft -60°) A a) Calculate the RMS value of the voltage b) Calculate the RMS value of the current c) Calculate the average value of the power absorbed by the circuit