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Exercise 30.22 - Enhanced - with Feedback In, R = 16.0 12 and the battery emf...
In the following figure (Figure 1), R = 15.3 and the battery emf is 6.50 V...
In the following figure (Figure 1), R = 15.3 and the battery emf is 6.50 V . With switch S, open, switch Si is closed. After several minutes, S, is opened and S2 is closed. Part A At 2.18 ms after Si is opened, the current has decayed to 0.340 A. Calculate the inductance of the coil. Express your answer to three significant figures and include the appropriate units. 0 НА ? L = Value Units Submit Request Answer Part...
Exercise 30.24 Constants in (Figure 1), R-12.0 Ω and the battery emf is 6.30 V With...
Exercise 30.24 Constants in (Figure 1), R-12.0 Ω and the battery emf is 6.30 V With switch S2 open, switch Si is closed. After several minutes, S1 is opened and S2 is closed Figure 1 of 1> S2 Prow Part A At 2.30 ms after S1 is opened, the current has decayed to 0.230 A Calculate the inductance of the coil. Express your answer with the appropriate units. L-Value Units Submit Part B How long after Si is opened will...
In (Figure 1), R = 16.0 2 and the battery emf is 6.30 V. With switch S2 open, switch S1 is closed. After several minutes, S1 is opened and S2 is closed.
In (Figure 1), R = 16.0 2 and the battery emf is 6.30 V. With switch S2 open, switch S1 is closed. After several minutes, S1 is opened and S2 is closed. Part A At 2.50 ms after S1 is opened, the current has decayed to 0.290 A. Calculate the inductance of the coil. Part BHow long after S1 is opened will the current reach 1.00% of its original value?
a) A sensitive electronic device of 150 Ω resistance is to be disconnected from an emf...
a) A sensitive electronic device of 150 Ω resistance is to be
disconnected from an emf source by opening switch S1 (see Fig. 6).
An initial current of 30mA runs through the circuit when S2 is
closed. The current in the circuit after 48µs is 25mA. What is the
R-L time constant ?
b) Find the device current after 40µs if the emf is 5V and S1
is closed. Take the values of resistance and inductance from above
(part a)....
In the circuit in the figure R. RS emf of the battery E = 27 V....
In the circuit in the figure R. RS emf of the battery E = 27 V. All the inductors are of the ZR L same inductance, L=0.12 H L3 R1 and of negligible resistances. Is.. Resistances of the resistors are Ro = 31, R: = 41, R2 = 109, Rg = 1522, R = 122, Rs = 102, R=1012. The switch S is closed at the time t = 0 Find the current flowing in Ro immediately after the switch...
In the circuit of the figure below, the battery emf e m f is 60 V,...
In the circuit of the figure
below, the battery emf e m f is 60 V, the resistance R is 150 Ω,
and the capacitance C is 0.500 µF. The switch S is closed for a
long time interval, and zero potential difference is measured
across the capacitor. After the switch is opened, the potential
difference across the capacitor reaches a maximum value of 150 V.
What is the value of the inductance?
In the circuit of the figure below,...
In the circuit shown in the figure R = 5.0 2, L = 2.0 mH, C...
In the circuit shown in the figure R = 5.0 2, L = 2.0 mH, C = 5.0 uF and switch Si has been closed for a long enough time so that the current reads a steady value of I1 = 50 mA . Suddenly, switch S2 is closed and Si is opened at the same instant. A 2.0 mH 1000 5.0 uF Ini Part A - What is the current on the capacitor immediately after the switch S2 is...
Exercise 28.34 - Enhanced - with Feedback A closely wound, circular coil with radius 2.30 cm...
Exercise 28.34 - Enhanced - with Feedback A closely wound, circular coil with radius 2.30 cm has 800 turns. Part A What must the current in the coil be if the magnetic field at the center of the coil is 0.0790 T? Express your answer with the appropriate units. ANSWER: I= Part B At what distance x from the center of the coil, on the axis of the coil, is the magnetic field half its value at the center? Express...
= In the circuit below, R 10.0 12, L = 30.0 H, and Ɛ = 20.0...
= In the circuit below, R 10.0 12, L = 30.0 H, and Ɛ = 20.0 V. Switch S1 is closed and switch S2 is left open. After the current has reached its final value, switch Si is opened and switch S2 is closed. What is the magnitude of the potential difference between points a and b three seconds after S2 is closed (in V)? (A) 3.89 (B) 9.12 (C) 2.00 (D) 7.36 (E) 6.54 (F) 1.00 ع si Sa...
Electrical Circuit and Self Inductance? With a battery emf of 13.6 V in the RL circuit...
Electrical Circuit and Self Inductance?
With a battery emf of 13.6 V
in the RL circuit ( R=0.710 ? and L= 78.0 mH), what is the
self-induced emf when the switch has just been closed on
a?
What is the self-induced emf after two L/R time constants have
passed?
In units of the time constant, after how much time will the
self-induced emf be just one-half of the battery emf?
In the following figure (Figure 1), R = 15.3 and the battery emf is 6.50 V . With switch S, open, switch Si is closed. After several minutes, S, is opened and S2 is closed. Part A At 2.18 ms after Si is opened, the current has decayed to 0.340 A. Calculate the inductance of the coil. Express your answer to three significant figures and include the appropriate units. 0 НА ? L = Value Units Submit Request Answer Part...
Exercise 30.24 Constants in (Figure 1), R-12.0 Ω and the battery emf is 6.30 V With switch S2 open, switch Si is closed. After several minutes, S1 is opened and S2 is closed Figure 1 of 1> S2 Prow Part A At 2.30 ms after S1 is opened, the current has decayed to 0.230 A Calculate the inductance of the coil. Express your answer with the appropriate units. L-Value Units Submit Part B How long after Si is opened will...
a) A sensitive electronic device of 150 Ω resistance is to be
disconnected from an emf source by opening switch S1 (see Fig. 6).
An initial current of 30mA runs through the circuit when S2 is
closed. The current in the circuit after 48µs is 25mA. What is the
R-L time constant ?
b) Find the device current after 40µs if the emf is 5V and S1
is closed. Take the values of resistance and inductance from above
(part a)....
In the circuit in the figure R. RS emf of the battery E = 27 V. All the inductors are of the ZR L same inductance, L=0.12 H L3 R1 and of negligible resistances. Is.. Resistances of the resistors are Ro = 31, R: = 41, R2 = 109, Rg = 1522, R = 122, Rs = 102, R=1012. The switch S is closed at the time t = 0 Find the current flowing in Ro immediately after the switch...
In the circuit of the figure
below, the battery emf e m f is 60 V, the resistance R is 150 Ω,
and the capacitance C is 0.500 µF. The switch S is closed for a
long time interval, and zero potential difference is measured
across the capacitor. After the switch is opened, the potential
difference across the capacitor reaches a maximum value of 150 V.
What is the value of the inductance?
In the circuit of the figure below,...
In the circuit shown in the figure R = 5.0 2, L = 2.0 mH, C = 5.0 uF and switch Si has been closed for a long enough time so that the current reads a steady value of I1 = 50 mA . Suddenly, switch S2 is closed and Si is opened at the same instant. A 2.0 mH 1000 5.0 uF Ini Part A - What is the current on the capacitor immediately after the switch S2 is...
Exercise 28.34 - Enhanced - with Feedback A closely wound, circular coil with radius 2.30 cm has 800 turns. Part A What must the current in the coil be if the magnetic field at the center of the coil is 0.0790 T? Express your answer with the appropriate units. ANSWER: I= Part B At what distance x from the center of the coil, on the axis of the coil, is the magnetic field half its value at the center? Express...
= In the circuit below, R 10.0 12, L = 30.0 H, and Ɛ = 20.0 V. Switch S1 is closed and switch S2 is left open. After the current has reached its final value, switch Si is opened and switch S2 is closed. What is the magnitude of the potential difference between points a and b three seconds after S2 is closed (in V)? (A) 3.89 (B) 9.12 (C) 2.00 (D) 7.36 (E) 6.54 (F) 1.00 ع si Sa...
Electrical Circuit and Self Inductance?
With a battery emf of 13.6 V
in the RL circuit ( R=0.710 ? and L= 78.0 mH), what is the
self-induced emf when the switch has just been closed on
a?
What is the self-induced emf after two L/R time constants have
passed?
In units of the time constant, after how much time will the
self-induced emf be just one-half of the battery emf?
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