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Two spherical conductors A and B of radii 1 mm and 2mm are separated by a distance of 5 mm and are uniformly charged. If the spheres are connected by a conducting wire then in equilibrium conditions, the two of the magnitude of the electric fields at the surfaces of spheres of A and B is (a) 1: 2 (b) 2: 1 (c) 1: 4 (d) 4: 1?
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Two spherical conductors A and B of radii 1 mm and 2mm are separated b...
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Two spherical conductors A and B of radii 1 mm and 2mm are separated b...

Explanation:

Given data:
- Radius of sphere A, rA = 1 mm
- Radius of sphere B, rB = 2 mm
- Distance between the spheres, d = 5 mm

Step 1: Calculating Charges on the Spheres
- Let QA and QB be the charges on spheres A and B, respectively.
- The charges on the spheres will be such that the potential on both spheres is the same when connected by a conducting wire.
- Using the formula for potential, V = kQ/r, we can equate the potentials of spheres A and B to find the charges.

Step 2: Calculating Electric Fields at the Surfaces of Spheres
- The electric field at the surface of a charged sphere is given by E = kQ/r2, where k is the electrostatic constant.
- After calculating the charges on the spheres, we can determine the electric fields at the surfaces of spheres A and B.
- The ratio of the magnitudes of the electric fields at the surfaces of spheres A and B can be found by substituting the values of QA, QB, and rA, rB into the formula for electric field.

Step 3: Calculations and Conclusion
- By performing the necessary calculations, we can determine the ratio of the magnitudes of the electric fields at the surfaces of spheres A and B.
- The correct option among (a) 1:2, (b) 2:1, (c) 1:4, and (d) 4:1 can be identified based on the calculated ratio.

Therefore, by following these steps, the ratio of the magnitudes of the electric fields at the surfaces of spheres A and B can be determined.
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Two spherical conductors A and B of radii 1 mm and 2mm are separated by a distance of 5 mm and are uniformly charged. If the spheres are connected by a conducting wire then in equilibrium conditions, the two of the magnitude of the electric fields at the surfaces of spheres of A and B is (a) 1: 2 (b) 2: 1 (c) 1: 4 (d) 4: 1?
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Two spherical conductors A and B of radii 1 mm and 2mm are separated by a distance of 5 mm and are uniformly charged. If the spheres are connected by a conducting wire then in equilibrium conditions, the two of the magnitude of the electric fields at the surfaces of spheres of A and B is (a) 1: 2 (b) 2: 1 (c) 1: 4 (d) 4: 1? for NEET 2024 is part of NEET preparation. The Question and answers have been prepared according to the NEET exam syllabus. Information about Two spherical conductors A and B of radii 1 mm and 2mm are separated by a distance of 5 mm and are uniformly charged. If the spheres are connected by a conducting wire then in equilibrium conditions, the two of the magnitude of the electric fields at the surfaces of spheres of A and B is (a) 1: 2 (b) 2: 1 (c) 1: 4 (d) 4: 1? covers all topics & solutions for NEET 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Two spherical conductors A and B of radii 1 mm and 2mm are separated by a distance of 5 mm and are uniformly charged. If the spheres are connected by a conducting wire then in equilibrium conditions, the two of the magnitude of the electric fields at the surfaces of spheres of A and B is (a) 1: 2 (b) 2: 1 (c) 1: 4 (d) 4: 1?.
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