Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)

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In the circuit shown in figure. Calculate the charges stored in 10 muF capacitor in steady state ( in muC ).
10
Nov
In the circuit shown in figure. Calculate the charges stored in 10 muF capacitor in steady state ( in muC ). In the circuit shown in figure. Calculate the charges stored in 10 muF capacitor in steady state ( in muC ). November 10, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP [...]
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Tags: In the circuit shown in figure. Calculate the charges stored in 10 muF capacitor in steady state ( in muC ). ,
Find the amount by which the total energy stored in the capacitor ( in uJ ) will increase in the circuit shown in the figure aftert switch K is closed. Consider all capacitors are capacitance 3 muF and battery voltage is 10 V.
10
Nov
Find the amount by which the total energy stored in the capacitor ( in uJ ) will increase in the circuit shown in the figure aftert switch K is closed. Consider all capacitors are capacitance 3 muF and battery voltage is 10 V. Find the ratio of the magnitudes of the potential difference between the [...]
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Tags: Find the ratio of the magnitudes of the potential difference between the points A and B that between E and F of the circuit shown in figure. ,
In the circuit shown, all capacitors are identical. Initially, the switch is open and the capacitor marked C1 is the only one charged to a value Q0. After the switch is closed and the equilibrium is reestablished, the charge on the capacitor marked C1 is Q. Find the ratio initial change to final charge in capacitor C1.
10
Nov
In the circuit shown, all capacitors are identical. Initially, the switch is open and the capacitor marked C1 is the only one charged to a value Q0. After the switch is closed and the equilibrium is reestablished, the charge on the capacitor marked C1 is Q. Find the ratio initial change to final charge in [...]
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Tags: all capacitors are identical. Initially , In the circuit shown , the charge on the capacitor marked C1 is Q. Find the ratio initial change to final charge in capacitor C1. , the switch is open and the capacitor marked C1 is the only one charged to a value Q0. After the switch is closed and the equilibrium is reestablished ,
A charge of 20μC is placed on the positive plate of an isolated parallel-plate capacitor of capacitance 10μF. Calculate the potential difference developed between the plates.
10
Nov
A charge of 20μC is placed on the positive plate of an isolated parallel-plate capacitor of capacitance 10μF. Calculate the potential difference developed between the plates. A charge of 20μC is placed on the positive plate of an isolated parallel-plate capacitor of capacitance 10μF. Calculate the potential difference developed between the plates. November 10, 2020 [...]
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Tags: A charge of 20μC is placed on the positive plate of an isolated parallel-plate capacitor of capacitance 10μF. Calculate the potential difference developed between the plates. ,
A capacitor with stored energy 4 J is connected with an identical capacitor with no electric field in between . Find the total energy stored ( in J ) in the two capacitors.
10
Nov
A capacitor with stored energy 4 J is connected with an identical capacitor with no electric field in between . Find the total energy stored ( in J ) in the two capacitors. A capacitor with stored energy 4 J is connected with an identical capacitor with no electric field in between . Find the [...]
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Tags: A capacitor with stored energy 4 J is connected with an identical capacitor with no electric field in between . Find the total energy stored ( in J ) in the two capacitors. ,
Find the potential difference between the points A and B ( in V ) in the circuit shown in figure.
10
Nov
Find the potential difference between the points A and B ( in V ) in the circuit shown in figure. Find the potential difference between the points A and B ( in V ) in the circuit shown in figure. November 10, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: Find the potential difference between the points A and B ( in V ) in the circuit shown in figure. ,
A capacitor of capacitance C 1= 1.0 μF withstands the maximum voltage V1 = 6.0 kV while a capacitor of capacitance Cs = 2.0μF, the maximum voltage Vs = 4.0 kV. What voltage will the system of these two capacitors withsatand if they are connected in sereis ?
10
Nov
A capacitor of capacitance C 1= 1.0 μF withstands the maximum voltage V1 = 6.0 kV while a capacitor of capacitance Cs = 2.0μF, the maximum voltage Vs = 4.0 kV. What voltage will the system of these two capacitors withsatand if they are connected in sereis ? A capacitor of capacitance C 1= 1.0 [...]
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Tags: A capacitor of capacitance C 1= 1.0 μF withstands the maximum voltage V1 = 6.0 kV while a capacitor of capacitance Cs = 2.0μF , the maximum voltage Vs = 4.0 kV. What voltage will the system of these two capacitors withsatand if they are connected in sereis ? ,
A parallel plate capacitor of capacity C0 is charged to a potential V0, E1 is the energy stored in the capacitor when the battery is disconnected and the plate separation is doubled, and E2 is the energy stored in the capacitor when the charging battery is kept connected and the separation between the capacitor plates is doubled. find the ratio E1/E2.
10
Nov
A parallel plate capacitor of capacity C0 is charged to a potential V0, E1 is the energy stored in the capacitor when the battery is disconnected and the plate separation is doubled, and E2 is the energy stored in the capacitor when the charging battery is kept connected and the separation between the capacitor plates [...]
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Tags: A parallel plate capacitor of capacity C0 is charged to a potential V0 , and E2 is the energy stored in the capacitor when the charging battery is kept connected and the separation between the capacitor plates is doubled. find the ratio E1/E2. , E1 is the energy stored in the capacitor when the battery is disconnected and the plate separation is doubled ,
Find the ratio of the magnitudes of the potential difference between the points A and B that between E and F of the circuit shown in figure.
10
Nov
Find the ratio of the magnitudes of the potential difference between the points A and B that between E and F of the circuit shown in figure. Find the ratio of the magnitudes of the potential difference between the points A and B that between E and F of the circuit shown in figure. November [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: Find the ratio of the magnitudes of the potential difference between the points A and B that between E and F of the circuit shown in figure. ,
Find the potential difference between the points M and N ( in V ) of the system shown in figure if the emf is equal to E = 110 V and the capacitance ratio C2/C1 is 23.
10
Nov
Find the potential difference between the points M and N ( in V ) of the system shown in figure if the emf is equal to E = 110 V and the capacitance ratio C2/C1 is 23. Find the potential difference between the points M and N ( in V ) of the system shown [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: Find the potential difference between the points M and N ( in V ) of the system shown in figure if the emf is equal to E = 110 V and the capacitance ratio C2/C1 is 23. ,