Homework Answers
Solution) No the voltage across capacitor cannot change instantaneously . It needs infinite current to change the voltage which is not possible .
False
Solution ) Yes current through capacitor can change instantaneously
True
Solution) Yes current through resistor can change instantaneously .
True
Solution) Yes voltage across resistor can change instantaneously.
True
Solution) No. Only capacitors can store energy but not resistors .
False .
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Determine whether the following statements are True or False The voltage across a capacitor can change...
Determine whether the following statements are True or False The voltage across a capacitor can change...
Determine whether the following statements are True or False The voltage across a capacitor can change instantaneously: The current through a capacitor can change instantaneously: The voltage across a resistor can change instantaneously: The current through a resistor can change instantaneously: Resistors and capacitors are both capable of storing energy:
please help with steps thanks Select 'True False' or 'Cannot tell' for the following statements. True:...
please help with steps thanks
Select 'True False' or 'Cannot tell' for the following statements. True: The current through the inductor always equals the current A charging/discharging the capacitor. True: Energy is dissipated in the resistor but not in either the capacitor or the inductor. True: The current through the inductor is the same as the current through the resistor at all times. False: The voltage drop across the resistor is the same as the voltage drop across the inductor...
Consider the RLC circuit shown in the figure. Select 'True', 'False' or 'Cannot telll for the...
Consider the RLC circuit shown in the figure. Select 'True', 'False' or 'Cannot telll for the following statements. True: The current through the inductor always equals the current charging/discharging the capacitor. True: Energy is dissipated in the resistor but not in either the capacitor or the inductor. True: The current through the inductor is the same as the current through the resistor at all times. False: The voltage drop across the resistor is the same as the voltage drop across...
Consider the RLC circuit shown in the figure. Select 'True, 'False' or 'Cannot tell' for the...
Consider the RLC circuit shown in the figure. Select 'True, 'False' or 'Cannot tell' for the following statements Energy is dissipated in the resistor but not in either the capacitor or the inductor The current through the inductor is the same as the current through the resistor at all times. The voltage drop across the resistor is the same as the voltage drop across the inductor at all times. The current through the inductor always equals the current charging/discharging the...
When discharging the 20.0 mF capacitor, you measure a voltage of 11.2 V across the capacitor....
When discharging the 20.0 mF capacitor, you measure a voltage of 11.2 V across the capacitor. What is the voltage drop across the 300.0 ft resistor? When discharging the 20.0 mF capacitor, you measure a voltage of 11.2 V across the capacitor. What is the current through the 300.0 ft resistor, in amps? Answer as a positive number. The current will be A. If you plot voltage drop across a capacitor vs time for a capacitor discharging through a resistor,...
Consider the RLC circuit shown in the figure. R L V Select 'True', 'false' or 'Cannot...
Consider the RLC circuit shown in the figure. R L V Select 'True', 'false' or 'Cannot tell' for the following statements. The voltage drop across the resistor is the same as the voltage drop across the inductor at all times. OA: Truel OB: False OC: Cannot tell The current through the inductor always equals the current charging/discharging the capacitor. OA: True OB: False OC: Cannot tell The current through the inductor is the same as the current through the resistor...
6. (20 points) Consider the RLC circuit shown in the figure. Data: Resistace: Frequency: 1.89×103 Hz,...
6. (20 points) Consider the RLC circuit shown in the figure. Data: Resistace: Frequency: 1.89×103 Hz, Capacitance: 6.10×103 F, Vrms = 94.9 V, Inductance: a 175-mH 51x 102 Ω, (a) Select True', False' for the following statements. True or False ?: Energy is dissipated in the resistor but not in either the capacitor or the inductor. True or False?: The current through the inductor always equals the current charging/discharging the capacitor. True or False ?: The current through the inductor...
Which of the following statements is FALSE regarding evaluating networks of resistors and batteries? Please explain!...
Which of the following statements is FALSE regarding evaluating networks of resistors and batteries? Please explain! Select the correct answer a. When following the direction of a (proposed) current, the voltage change across a battery is positive ( a voltage gain) b. The sum of the currents entering a junction (node) must equal the sum of the currents exiting that junction (node). c. The sum of the current around any closed loop must equal to zero d. The sum of...
true of false 1.Polarity is defined based on the conventional current through a resistive element. 3....
true of false 1.Polarity is defined based on the conventional current through a resistive element. 3. If there are two resistors in a parallel circuit, total resistance can be calculated by the product divided by the sum. 3. When a 10kohm resistor, a 1kohm resistor, and a 100ohm resistor are connected in series, the current through each resistor is the same, and the voltage across each resistor is the same .
Section I True/False. For each of the following statements, say whether the statement is true or...
Section I True/False. For each of the following statements, say whether the statement is true or false For each false statement, supply a similar but modified statement that is true. (Warning these can be tricky. However, they are not meant to be ambiguous; if you find think is ambiguous, explain why and you will get credit if you one that you are convincing.) 1. Ifthe current in a sinusoidally-driven series RLC circuit leads the EMF, and we wanted to increase...
Determine whether the following statements are True or False The voltage across a capacitor can change instantaneously: The current through a capacitor can change instantaneously: The voltage across a resistor can change instantaneously: The current through a resistor can change instantaneously: Resistors and capacitors are both capable of storing energy:
please help with steps thanks
Select 'True False' or 'Cannot tell' for the following statements. True: The current through the inductor always equals the current A charging/discharging the capacitor. True: Energy is dissipated in the resistor but not in either the capacitor or the inductor. True: The current through the inductor is the same as the current through the resistor at all times. False: The voltage drop across the resistor is the same as the voltage drop across the inductor...
Consider the RLC circuit shown in the figure. Select 'True', 'False' or 'Cannot telll for the following statements. True: The current through the inductor always equals the current charging/discharging the capacitor. True: Energy is dissipated in the resistor but not in either the capacitor or the inductor. True: The current through the inductor is the same as the current through the resistor at all times. False: The voltage drop across the resistor is the same as the voltage drop across...
Consider the RLC circuit shown in the figure. Select 'True, 'False' or 'Cannot tell' for the following statements Energy is dissipated in the resistor but not in either the capacitor or the inductor The current through the inductor is the same as the current through the resistor at all times. The voltage drop across the resistor is the same as the voltage drop across the inductor at all times. The current through the inductor always equals the current charging/discharging the...
When discharging the 20.0 mF capacitor, you measure a voltage of 11.2 V across the capacitor. What is the voltage drop across the 300.0 ft resistor? When discharging the 20.0 mF capacitor, you measure a voltage of 11.2 V across the capacitor. What is the current through the 300.0 ft resistor, in amps? Answer as a positive number. The current will be A. If you plot voltage drop across a capacitor vs time for a capacitor discharging through a resistor,...
Consider the RLC circuit shown in the figure. R L V Select 'True', 'false' or 'Cannot tell' for the following statements. The voltage drop across the resistor is the same as the voltage drop across the inductor at all times. OA: Truel OB: False OC: Cannot tell The current through the inductor always equals the current charging/discharging the capacitor. OA: True OB: False OC: Cannot tell The current through the inductor is the same as the current through the resistor...
6. (20 points) Consider the RLC circuit shown in the figure. Data: Resistace: Frequency: 1.89×103 Hz, Capacitance: 6.10×103 F, Vrms = 94.9 V, Inductance: a 175-mH 51x 102 Ω, (a) Select True', False' for the following statements. True or False ?: Energy is dissipated in the resistor but not in either the capacitor or the inductor. True or False?: The current through the inductor always equals the current charging/discharging the capacitor. True or False ?: The current through the inductor...
Section I True/False. For each of the following statements, say whether the statement is true or false For each false statement, supply a similar but modified statement that is true. (Warning these can be tricky. However, they are not meant to be ambiguous; if you find think is ambiguous, explain why and you will get credit if you one that you are convincing.) 1. Ifthe current in a sinusoidally-driven series RLC circuit leads the EMF, and we wanted to increase...
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