2. [1 mark.] The current flowing through a device is i(t) = 80(1 + sin(100nt)) A....
1.3 Find the charge g) flowing through a device if the current is: (a) i-3 A, q(0)1C (b) iO)(2t +5) mA, q(0)-0 ci)20 cos(10t+p/6)MA, q0)2
Question 5 The current flowing through a 180-mH inductance is g i(t) = 3 * el-175 * 1) A Determine the energy in mj at time t = 6.2 ms. events changes to this answer. Question 4 The current in a 126-mH inductance is given by the function below. i(t) = 0.4 sin(7000) A Determine the energy in my at time = 9 s. (The angle is in radians) Moving to the next question prevents changes to this answer. uestion...
6.14 The waveform for the current flowing through the 10-uF capacitor in Fig. P6.14a is shown in Fig. P6.14b. If ve (t-0)- 1 V, determine vc(t) at t-1 ms, 3 ms, 4 ms, and 5 ms i(t) i(t) (mA) 15 t (ms) 4 (i 10
Determine the current flowing through an element if the cllalfyc fla)w is given by (a) q(t)- (3t 8) mC (b) q(t) (8 + 41 -2) C (c) q(t) = (3e-1-5e-21) nC (d) q(t) 10 sin 120πί pC (e) q)20e 4 cos 50tuC
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.
Question 25 (1 point) Two conductors are separated by 50 cm. The current flowing through one is 2A, and the current flowing through the other is 3 A. If the current is flowing in the same direction the magnetic filed between the conductors is 0 2.4x106T 1.6 x106T 0.8 x10-6 T 4x10-6 T
• The current i = 0.2 sin 2000 A. flows through the series combination of 2 F and % H. If the capacitor voltage is -50 V at t=0, find the total energy stored in the series network as a function of time.
The current in a 200 mH inductor is i = 75 mA, t < 0; -50+ i= (B1 cos 200t + B2 sin 200t) e A, t>0, where t is in seconds. The voltage across the inductor (passive sign convention) is 4.25 V at t = 0. Part A Calculate the power at the terminals of the inductor at t = 28 ms Express your answer to three significant figures and include the appropriate units. μΑ p = Value Units...
The current in a 200 mH inductor is i=75 mA, t< 0; i= (B cos 200t + B, sin 2000) e -50t A, t>0, where t is in seconds. The voltage across the inductor (passive sign convention) is 4.25 V at t = 0. Part A Calculate the power at the terminals of the inductor at t = 24 ms Express your answer to three significant figures and include the appropriate units. μΑ ? p= Value Units Submit Request Answer...
Use current divider to calculate the current, i, flowing through the 60 Ω resistor. Please put your answer in engineering notation with 3 significant figures and proper units. 'VWWW O O 08 ২ ২০ 09 (+) 16 A ২ 20 2