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

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In the given circuit, initially switch S1 is closed, and S2 and S3 are open. After charging of capacitor, at t=0, S1 is opened and S2 and S3 are closed. If the relation between inductance, capacitance and resistance is L=4CR2, tehn find the time (in s) after which current passing through capacitor and inductor will be same (given R = In 2 mΩ,L = 2 mH)
24
Oct
In the given circuit, initially switch S1 is closed, and S2 and S3 are open. After charging of capacitor, at t=0, S1 is opened and S2 and S3 are closed. If the relation between inductance, capacitance and resistance is L=4CR2, tehn find the time (in s) after which current passing through capacitor and inductor will [...]
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Tags: and S2 and S3 are open. After charging of capacitor , At t=0 , capacitance and resistance is L=4CR2 , In the given circuit , initially switch S1 is closed , L = 2 mH) , S1 is opened and S2 and S3 are closed. If the relation between inductance , tehn find the time (in s) after which current passing through capacitor and inductor will be same (given R = In 2 mΩ ,
An external pressure P is applied on a cube at 0 C so that it is equally compressed from all sides. K is the bulk modulus of the material of the cube and alpha is its coefficient of linear expansion.
24
Oct
An external pressure P is applied on a cube at 0 C so that it is equally compressed from all sides. K is the bulk modulus of the material of the cube and alpha is its coefficient of linear expansion. An external pressure P is applied on a cube at 0 C so that it [...]
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Tags: An external pressure P is applied on a cube at 0 C so that it is equally compressed from all sides. K is the bulk modulus of the material of the cube and alpha is its coefficient of linear expansion. ,
Figure shows a part of a bigger circuit. The capacity of the capacitor is 6 mF and is desaesing at the constate rate 0.5 mF/s. The potential difference across the capacitor at the shows moment is changing as follows: dVdt=2Vs−1, d2Vdt2=12VS−2 The current in the 4Ω resistor is decreasing at the rate of 1 m A/s. What is the potential difference (in mV) across the inductor at this moment?
24
Oct
Figure shows a part of a bigger circuit. The capacity of the capacitor is 6 mF and is desaesing at the constate rate 0.5 mF/s. The potential difference across the capacitor at the shows moment is changing as follows: dVdt=2Vs−1, d2Vdt2=12VS−2 The current in the 4Ω resistor is decreasing at the rate of 1 m [...]
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Tags: circuit is closed at time t = 0. At time t = In (2) second : , In the circuit shown in Figure , The switch S in the circuit is connected with point a for a very long time ,
Two colis, 1 and 2 have a mutual inductance M = 5 H and resistance R=10Ω each. A current flows in coil 1, which varies with time as: I1=2t2, where t is time. Find the total charge (in C) that has flows through coil 2 between t = 0 and t = 2 s.
24
Oct
Two colis, 1 and 2 have a mutual inductance M = 5 H and resistance R=10Ω each. A current flows in coil 1, which varies with time as: I1=2t2, where t is time. Find the total charge (in C) that has flows through coil 2 between t = 0 and t = 2 s. 1 [...]
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Tags: 1 and 2 have a mutual inductance M = 5 H and resistance R=10Ω each. A current flows in coil 1 , Two colis , where t is time. Find the total charge (in C) that has flows through coil 2 between t = 0 and t = 2 s. , which varies with time as: I1=2t2 ,
A current of 2 A is increasing at a rate of 4 A/s through a coil of inductance 1 H. Find the energy stored in the inductor per unit in the units of J/s.
24
Oct
A current of 2 A is increasing at a rate of 4 A/s through a coil of inductance 1 H. Find the energy stored in the inductor per unit in the units of J/s. A current of 2 A is increasing at a rate of 4 A/s through a coil of inductance 1 H. Find [...]
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Tags: A current of 2 A is increasing at a rate of 4 A/s through a coil of inductance 1 H. Find the energy stored in the inductor per unit in the units of J/s. ,
In the circuit ( figure ) what is potential difference Vb – Va ( in V ) when current I is 5 A and is decreasing at the rate of 10^3 A/s?
24
Oct
In the circuit ( figure ) what is potential difference Vb – Va ( in V ) when current I is 5 A and is decreasing at the rate of 10^3 A/s? In the circuit ( figure ) what is potential difference Vb - Va ( in V ) when current I is 5 A [...]
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Tags: In the circuit ( figure ) what is potential difference Vb - Va ( in V ) when current I is 5 A and is decreasing at the rate of 10^3 A/s? ,
A pendulum clock loses 12 s a day if the temperature is 40 C and gains 4 s a day if the temperature is 20 C. The temperature at which the clock will show correct time, and the c0-efficient
24
Oct
A pendulum clock loses 12 s a day if the temperature is 40 C and gains 4 s a day if the temperature is 20 C. The temperature at which the clock will show correct time, and the c0-efficient A pendulum clock loses 12 s a day if the temperature is 40 C and gains [...]
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Tags: A pendulum clock loses 12 s a day if the temperature is 40 C and gains 4 s a day if the temperature is 20 C. The temperature at which the clock will show correct time , and the c0-efficient ,
The pressure that has to be applied to the ends of a steel wire of length 10 cm to keep its length constant when its temperature is raised by 100 C is :
24
Oct
The pressure that has to be applied to the ends of a steel wire of length 10 cm to keep its length constant when its temperature is raised by 100 C is : The pressure that has to be applied to the ends of a steel wire of length 10 cm to keep its length [...]
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Tags: The pressure that has to be applied to the ends of a steel wire of length 10 cm to keep its length constant when its temperature is raised by 100 C is : ,
A wooden wheel of radius R is made of two semicircular parts (see figure). The two parts are held together by a ring made of a metal strip of cross sectional area S and length L.
24
Oct
A wooden wheel of radius R is made of two semicircular parts (see figure). The two parts are held together by a ring made of a metal strip of cross sectional area S and length L. A wooden wheel of radius R is made of two semicircular parts (see figure). The two parts are held [...]
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Tags: A wooden wheel of radius R is made of two semicircular parts (see figure). The two parts are held together by a ring made of a metal strip of cross sectional area S and length L. ,
100 g of water is heated from 30 C to 50 C. Ignoring the slight expansion of the water, the change in its internal energy is (specific heat of water is 4184 J/Kg/K)
24
Oct
100 g of water is heated from 30 C to 50 C. Ignoring the slight expansion of the water, the change in its internal energy is (specific heat of water is 4184 J/Kg/K) 100 g of water is heated from 30 C to 50 C. Ignoring the slight expansion of the water the change in [...]
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Tags: 100 g of water is heated from 30 C to 50 C. Ignoring the slight expansion of the water , the change in its internal energy is (specific heat of water is 4184 J/Kg/K) ,