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A small conducting spherical shell with inner radius a and outer radius b is concentric with a larger conducting spherical shell with inner radius c and outer radius d The inner shell has total charge +2q, and the outer shell has charge +4q.

Find the electric field in terms of q and the distance r from the common centre of the two shells for r>d.

  1. fraction numerator k q over denominator r to the power of 2 end exponent end fraction    
  2. fraction numerator 2 k q over denominator r to the power of 2 end exponent end fraction    
  3. fraction numerator 6 k q over denominator r to the power of 2 end exponent end fraction    
  4. fraction numerator 3 k q over denominator r to the power of 2 end exponent end fraction    

The correct answer is: fraction numerator 6 k q over denominator r to the power of 2 end exponent end fraction

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General
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A small conducting spherical shell with inner radius a and outer radius b is concentric with a larger conducting spherical shell with inner radius c and outer radius d The inner shell has total charge +2q, and the outer shell has charge +4q.

Find the electric field in terms of q and the distance r from the common centre of the two shells for
i) b<r<c
ii) c<r<d

A small conducting spherical shell with inner radius a and outer radius b is concentric with a larger conducting spherical shell with inner radius c and outer radius d The inner shell has total charge +2q, and the outer shell has charge +4q.

Find the electric field in terms of q and the distance r from the common centre of the two shells for
i) b<r<c
ii) c<r<d

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A small conducting spherical shell with inner radius a and outer radius b is concentric with a larger conducting spherical shell with inner radius c and outer radius d The inner shell has total charge +2q, and the outer shell has charge +4q.

Find the electric field in terms of q and the distance r from the common centre of the two shells for
i) r<a
ii) a<r<b

A small conducting spherical shell with inner radius a and outer radius b is concentric with a larger conducting spherical shell with inner radius c and outer radius d The inner shell has total charge +2q, and the outer shell has charge +4q.

Find the electric field in terms of q and the distance r from the common centre of the two shells for
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If a charge q is moving towards the centre of an earthed conducting sphere of radius b with uniform velocity v. Distance of two points A and B from centre of sphere are 3a&2a. Conducting sphere is earthed with an ammeter and resistance in series (as shown)

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If a charge q is moving towards the centre of an earthed conducting sphere of radius b with uniform velocity v. Distance of two points A and B from centre of sphere are 3a&2a. Conducting sphere is earthed with an ammeter and resistance in series (as shown)

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If a charge q is moving towards the centre of an earthed conducting sphere of radius b with uniform velocity v. Distance of two points A and B from centre of sphere are 3a&2a. Conducting sphere is earthed with an ammeter and resistance in series (as shown)

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If a charge q is moving towards the centre of an earthed conducting sphere of radius b with uniform velocity v. Distance of two points A and B from centre of sphere are 3a&2a. Conducting sphere is earthed with an ammeter and resistance in series (as shown)

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If a charge q is moving towards the centre of an earthed conducting sphere of radius b with uniform velocity v. Distance of two points A and B from centre of sphere are 3a&2a. Conducting sphere is earthed with an ammeter and resistance in series (as shown)

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If a charge q is moving towards the centre of an earthed conducting sphere of radius b with uniform velocity v. Distance of two points A and B from centre of sphere are 3a&2a. Conducting sphere is earthed with an ammeter and resistance in series (as shown)

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A solid metal sphere of radius R has a charge +2Q. A hollow spherical shell of radius 3R placed concentric with the first sphere has net charge -Q. find calculate the potential difference between the spheres.

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In uniform electric filed stack E with rightwards arrow on top equals 10 text end text N divided by C as shown in figure, find
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In uniform electric filed stack E with rightwards arrow on top equals 10 text end text N divided by C as shown in figure, find
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A uniform electric field of 100 V/m is directed at 30° with the positive x-axis as shown in figure. Find the potential difference V subscript B end subscript minus V subscript A end subscript if OA=2 m and OB=4 m.

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A neutral conducting spherical shell is kept near a charge q as shown. The potential at point P due to the induced charges is open parentheses K equals fraction numerator 1 over denominator 4 pi epsilon subscript 0 end subscript end fraction close parentheses

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If the electric potential of the inner metal sphere is 10 volt & that of the outer shell is 5 volt, then the potential at the centre will be :

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A solid metal sphere of radius R has a charge +2Q A hollow spherical shell of radius 3R placed concentric with the first sphere has net charge - Q.

Find the inner sphere is earthed, what is the charge on it.

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Find the inner sphere is earthed, what is the charge on it.

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A solid metal sphere of radius R has a charge +2Q A hollow spherical shell of radius 3R placed concentric with the first sphere has net charge - Q.

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What would be the final distribution of charges if the spheres are joined by a conducting wire.

physics-General
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A solid metal sphere of radius R has a charge +2Q A hollow spherical shell of radius 3R placed concentric with the first sphere has net charge - Q.

Find the electric field between the spheres at a distance r from the centre of the inner sphere. [R<r<3R].

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Find the electric field between the spheres at a distance r from the centre of the inner sphere. [R<r<3R].

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Electrostatic force on a charged particle is given by stack F with rightwards arrow on top equals q stack E with rightwards arrow on top. If q is positive stack F with rightwards arrow on top upwards arrow upwards arrow stack E with rightwards arrow on top and if q negative stack F with rightwards arrow on top upwards arrow downwards arrow stack E with rightwards arrow on top
Question : In the figure m subscript A end subscript equals m subscript B end subscript equals 1 text end text k g. Block A is neutral while q subscript B end subscript equals negative 1 C. Sizes of A and B are negligible. B is released from rest at a distance 1.8 m from A. Initially spring is neither compressed nor elongated

The amplitude of oscillation of the combined mass will be :

Electrostatic force on a charged particle is given by stack F with rightwards arrow on top equals q stack E with rightwards arrow on top. If q is positive stack F with rightwards arrow on top upwards arrow upwards arrow stack E with rightwards arrow on top and if q negative stack F with rightwards arrow on top upwards arrow downwards arrow stack E with rightwards arrow on top
Question : In the figure m subscript A end subscript equals m subscript B end subscript equals 1 text end text k g. Block A is neutral while q subscript B end subscript equals negative 1 C. Sizes of A and B are negligible. B is released from rest at a distance 1.8 m from A. Initially spring is neither compressed nor elongated

The amplitude of oscillation of the combined mass will be :

physics-General
General
physics-

Electrostatic force on a charged particle is given by stack F with rightwards arrow on top equals q stack E with rightwards arrow on top. If q is positive stack F with rightwards arrow on top upwards arrow upwards arrow stack E with rightwards arrow on top and if q negative stack F with rightwards arrow on top upwards arrow downwards arrow stack E with rightwards arrow on top
Question : In the figure m subscript A end subscript equals m subscript B end subscript equals 1 text end text k g. Block A is neutral while q subscript B end subscript equals negative 1 C. Sizes of A and B are negligible. B is released from rest at a distance 1.8 m from A. Initially spring is neither compressed nor elongated

Equilibrium position of the combined mass is at x=……….m.

Electrostatic force on a charged particle is given by stack F with rightwards arrow on top equals q stack E with rightwards arrow on top. If q is positive stack F with rightwards arrow on top upwards arrow upwards arrow stack E with rightwards arrow on top and if q negative stack F with rightwards arrow on top upwards arrow downwards arrow stack E with rightwards arrow on top
Question : In the figure m subscript A end subscript equals m subscript B end subscript equals 1 text end text k g. Block A is neutral while q subscript B end subscript equals negative 1 C. Sizes of A and B are negligible. B is released from rest at a distance 1.8 m from A. Initially spring is neither compressed nor elongated

Equilibrium position of the combined mass is at x=……….m.

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