You connect a battery, resistor, and capacitor as in (Figure 1), where R=15.0 Ω and C = 9.00 x 106F
You connect a battery, resistor, and capacitor as in (Figure 1), where R=15.0 Ω and C = 9.00 x 106F. The switch S is closed at t=0 When the current in the circuit has magnitude 3.00 A. the charge on the capacitor is 40.0 x 10-6C
Part B
At what time t after the switch is closed is the charge on the capacitor equal to 40.0 x 10-6C
Part C
When the current has magnitude 3.00 A at what rate is energy being stored in the capacitor?
Homework Answers
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You connect a battery, resistor, and capacitor as in (Figure 1), where R=15.0 Ω and C = 9.00 x 106F
You connect a battery, resistor, and capacitor as in (Figure 1) , where E = 56.0...
You connect a battery, resistor, and capacitor as in (Figure 1)
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E = 56.0 V , C = 5.00 μF , and R =
130 Ω . The switch S is closed at t = 0.
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magnitude of the current in the circuit?
(B) At what time t after the switch is closed is the
voltage across the capacitor 8.00 V?
(C) When the voltage...
You connect a battery, resistor and capacitor as in (Figure 1), where epsilon = 31.0 V,...
You connect a battery, resistor and capacitor as in (Figure 1), where epsilon = 31.0 V, C = 5.00 mu F, and R = 130 Ohm. The switch S is closed at t = 0. When the voltage across the capacitor is 8.00 V, what is the magnitude of the current in the circuit? Express your answer with the appropriate units. At what time t after the switch is closed is the voltage across the capacitor 8.00 V? Express your...
A real battery with internal resistance 0.550 Ω and emf 9.00 V is used to charge...
A real battery with internal resistance 0.550 Ω and emf 9.00 V is used to charge a 54.0-µF capacitor. A 15.0-Ω resistor is put in series with the battery and the capacitor when charging. (a) What is the time constant for this circuit? _______s (b) What is the time when the capacitor has reached half its maximum charge? _______s (c) What is the current through the capacitor at this time? _______A
A circuit is constructed with four resistors, one capacitor, one battery and a switch as shown....
A circuit is constructed with four resistors, one capacitor, one
battery and a switch as shown. The values for the resistors are: R1
= R2 = 60 Ω, R3 = 49 Ω and R4 = 133 Ω. The capacitance is C = 75 μF
and the battery voltage is V = 24 V.
1)
The switch has been open for a long time when at time t = 0, the
switch is closed. What is I1(0), the magnitude of the...
A circuit is constructed with a resistor, two inductors, one capacitor, one battery and a switch ...
A circuit is constructed with a resistor, two inductors, one capacitor, one battery and a switch as shown. The value of the resistance is R1 = 425 Ω. The values for the inductances are: L1-398 mH and L2-108 mH. The capacitance is C-186 μF and the battery voltage is V- 12V. The positive terminal of the battery is indicated with a +sign nes ir a 000 レ L2 ) The switch has been closed for a long time when at...
A circuit is constructed with a resistor, two inductors, one capacitor, one battery and a switch ...
A circuit is constructed with a resistor, two inductors, one capacitor, one battery and a switch as shown. The value of the resistance is R1 4252. The values for the inductances are: L 1 398 mH and L2-108 mH . The capactance C-186 μF and the battery voltage is V-12V. The positive terminal of the battery is indicated with a sign 1) The switch has been closed for a long time when at time 0, the switch is opened. What...
A circuit is constructed with four resistors, one capacitor, one battery and a switch as shown. T...
A circuit is constructed with four resistors, one capacitor, one battery and a switch as shown. The values for the resistors are: R -R2°41 Ω, R3-110 Ω and R4-84Ω, The capacitance is C-70 uF and the battery voltage is V-24 V R. R, "The switch has been open for a long time when at time t-0, the switch is closed. What is (0), the magnitude of the current through the resistor R1 just after the switch is closed? You currently...
A 12.0 V dc battery having no appreciable internal resistance, a 250 ohms resistor, a 15.0...
A 12.0 V dc battery having no appreciable internal resistance, a 250 ohms resistor, a 15.0 mH inductor, and an open switch are all connected in series. a. What is time constant in this circuit? b. What is the voltage on the resistor when the switch is just closed? c. What is the voltage on the inductor when the switch has been closed for a long time? d. What is maximum energy stored in the conductor? e. What is current...
2Ω Four resistors and a capacitor are connected to an 18 V battery with negligible internal...
2Ω Four resistors and a capacitor are connected to an 18 V battery with negligible internal resistance, as shown on the diagram. Initially the capacitor is disconnected from the battery- the switch is open Calculate the net resistance of the circuit. a) b) Calculate the current in the 2-Ω resistor. Calculate the current in the 3-Ω resistor. c) The switch is then closed and the current reaches a constant value. d) Calculate the charge on the capacitor. e) Calculate the...
ln the figure below you see a circuit with a battery (V), a capacitor (C), and...
ln the figure below you see a circuit with a battery (V), a
capacitor (C), and two resistors (R1 and R2). The circuit has a
switch that can be in two positions: switched to touch point A or
switched to touch point B. By setting first the switch to A you can
charge the capacitor, and then switching it to B you discharge the
capacitor through the resistor. (This is the simple mechanism
behind a camera flash, you can imagine...
You connect a battery, resistor, and capacitor as in (Figure 1)
, where
E = 56.0 V , C = 5.00 μF , and R =
130 Ω . The switch S is closed at t = 0.
(A) When the voltage across the capacitor is 8.00 V, what is the
magnitude of the current in the circuit?
(B) At what time t after the switch is closed is the
voltage across the capacitor 8.00 V?
(C) When the voltage...
You connect a battery, resistor and capacitor as in (Figure 1), where epsilon = 31.0 V, C = 5.00 mu F, and R = 130 Ohm. The switch S is closed at t = 0. When the voltage across the capacitor is 8.00 V, what is the magnitude of the current in the circuit? Express your answer with the appropriate units. At what time t after the switch is closed is the voltage across the capacitor 8.00 V? Express your...
A circuit is constructed with four resistors, one capacitor, one
battery and a switch as shown. The values for the resistors are: R1
= R2 = 60 Ω, R3 = 49 Ω and R4 = 133 Ω. The capacitance is C = 75 μF
and the battery voltage is V = 24 V.
1)
The switch has been open for a long time when at time t = 0, the
switch is closed. What is I1(0), the magnitude of the...
A circuit is constructed with a resistor, two inductors, one capacitor, one battery and a switch as shown. The value of the resistance is R1 = 425 Ω. The values for the inductances are: L1-398 mH and L2-108 mH. The capacitance is C-186 μF and the battery voltage is V- 12V. The positive terminal of the battery is indicated with a +sign nes ir a 000 レ L2 ) The switch has been closed for a long time when at...
A circuit is constructed with a resistor, two inductors, one capacitor, one battery and a switch as shown. The value of the resistance is R1 4252. The values for the inductances are: L 1 398 mH and L2-108 mH . The capactance C-186 μF and the battery voltage is V-12V. The positive terminal of the battery is indicated with a sign 1) The switch has been closed for a long time when at time 0, the switch is opened. What...
A circuit is constructed with four resistors, one capacitor, one battery and a switch as shown. The values for the resistors are: R -R2°41 Ω, R3-110 Ω and R4-84Ω, The capacitance is C-70 uF and the battery voltage is V-24 V R. R, "The switch has been open for a long time when at time t-0, the switch is closed. What is (0), the magnitude of the current through the resistor R1 just after the switch is closed? You currently...
2Ω Four resistors and a capacitor are connected to an 18 V battery with negligible internal resistance, as shown on the diagram. Initially the capacitor is disconnected from the battery- the switch is open Calculate the net resistance of the circuit. a) b) Calculate the current in the 2-Ω resistor. Calculate the current in the 3-Ω resistor. c) The switch is then closed and the current reaches a constant value. d) Calculate the charge on the capacitor. e) Calculate the...
ln the figure below you see a circuit with a battery (V), a
capacitor (C), and two resistors (R1 and R2). The circuit has a
switch that can be in two positions: switched to touch point A or
switched to touch point B. By setting first the switch to A you can
charge the capacitor, and then switching it to B you discharge the
capacitor through the resistor. (This is the simple mechanism
behind a camera flash, you can imagine...
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