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In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is ϕ. Assume π√3 ≈ 5.
Q. The value of ϕ is _____.
Correct answer is '60'. Can you explain this answer?
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In the circuit, a metal filament lamp is connected in series with a ca...
In this circuit, the metal filament lamp and the capacitor are connected in series, which means that the current flowing through both components is the same.
The metal filament lamp is a resistive component that converts electrical energy into heat and light. When a current passes through the filament, it heats up and emits light. The resistance of the filament determines the amount of current that can flow through it.
The capacitor, on the other hand, is a passive component that stores electrical energy in an electric field. It consists of two conductive plates separated by an insulating material called a dielectric. When a voltage is applied across the plates, the capacitor charges up and stores energy. The capacitance of the capacitor determines how much charge it can store for a given voltage.
By connecting the metal filament lamp and the capacitor in series, the current flowing through the circuit will be the same. However, the behavior of the circuit will depend on the frequency of the applied voltage.
At low frequencies, the capacitor acts as an open circuit, effectively blocking the flow of current. This is because the capacitor takes time to charge up and store energy. In this case, most of the current will flow through the metal filament lamp, causing it to heat up and emit light.
At high frequencies, the capacitor acts as a short circuit, allowing the flow of current. This is because the capacitor charges and discharges rapidly, effectively bypassing the filament lamp. In this case, most of the current will flow through the capacitor, and the lamp will not emit much light.
The behavior of the circuit will also depend on the value of the capacitance C. A larger capacitance will allow the capacitor to store more charge and block more current at low frequencies. A smaller capacitance will have the opposite effect, allowing more current to flow through the capacitor at low frequencies.
Overall, the circuit with a metal filament lamp connected in series with a capacitor can exhibit different behaviors depending on the frequency and value of the capacitance.
The metal filament lamp is a resistive component that converts electrical energy into heat and light. When a current passes through the filament, it heats up and emits light. The resistance of the filament determines the amount of current that can flow through it.
The capacitor, on the other hand, is a passive component that stores electrical energy in an electric field. It consists of two conductive plates separated by an insulating material called a dielectric. When a voltage is applied across the plates, the capacitor charges up and stores energy. The capacitance of the capacitor determines how much charge it can store for a given voltage.
By connecting the metal filament lamp and the capacitor in series, the current flowing through the circuit will be the same. However, the behavior of the circuit will depend on the frequency of the applied voltage.
At low frequencies, the capacitor acts as an open circuit, effectively blocking the flow of current. This is because the capacitor takes time to charge up and store energy. In this case, most of the current will flow through the metal filament lamp, causing it to heat up and emit light.
At high frequencies, the capacitor acts as a short circuit, allowing the flow of current. This is because the capacitor charges and discharges rapidly, effectively bypassing the filament lamp. In this case, most of the current will flow through the capacitor, and the lamp will not emit much light.
The behavior of the circuit will also depend on the value of the capacitance C. A larger capacitance will allow the capacitor to store more charge and block more current at low frequencies. A smaller capacitance will have the opposite effect, allowing more current to flow through the capacitor at low frequencies.
Overall, the circuit with a metal filament lamp connected in series with a capacitor can exhibit different behaviors depending on the frequency and value of the capacitance.
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In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer?
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In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer?.
In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer?.
Solutions for In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer? in English & in Hindi are available as part of our courses for JEE.
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Here you can find the meaning of In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer?, a detailed solution for In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer? has been provided alongside types of In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice In the circuit, a metal filament lamp is connected in series with a capacitor of capacitance CμF across a 200 V, 50 Hz supply. The power consumed by the lamp is 500 W while the voltage drop across it is 100 V. Assume that there is no inductive load in the circuit. Take rms values of the voltages. The magnitude of the phase angle (in degrees) between the current and supply voltage is . Assume π√3 ≈ 5.Q. The value of is _____.Correct answer is '60'. Can you explain this answer? tests, examples and also practice JEE tests.
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