1
answer
0
watching
317
views
10 Nov 2019
A coil is connected in series with, 10.0 k ohm, ideal 50.0 V battery is applied across the two devices current reaches a value of 2.00 mA after 5.00 ms. Find the inductance of the coil. How much energy stored in the coil at this same moment? A coil with an inductance of 2.0 H and a resistance of 10 ohm is suddenly connected to an ideal battery with E = 100 V. At 0.10 ms attar the connection is made, what is the rate at which energy is being stored in the magnetic field, thermal energy is appearing in the resistance, and energy being delivered by the battery? For the circuit of Fig. 30-21. assume that E = 10.0 V, R = 6.70 ohm, and L = 5.50 H. The ideal is connected at time t = 0. How much energy delivered by the battery during the first 2.00 s?
A coil is connected in series with, 10.0 k ohm, ideal 50.0 V battery is applied across the two devices current reaches a value of 2.00 mA after 5.00 ms. Find the inductance of the coil. How much energy stored in the coil at this same moment? A coil with an inductance of 2.0 H and a resistance of 10 ohm is suddenly connected to an ideal battery with E = 100 V. At 0.10 ms attar the connection is made, what is the rate at which energy is being stored in the magnetic field, thermal energy is appearing in the resistance, and energy being delivered by the battery? For the circuit of Fig. 30-21. assume that E = 10.0 V, R = 6.70 ohm, and L = 5.50 H. The ideal is connected at time t = 0. How much energy delivered by the battery during the first 2.00 s?
Nestor RutherfordLv2
22 May 2020