The electrostatic energy in an electric field does not depend on which...
Answer: c
Explanation: The energy in an electric field directly magnitude of charges. Thus electric field and flux density are also dependent. But the applied field affects only the polarisation and it is independent of the energy in the field.
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The electrostatic energy in an electric field does not depend on which...
Electrostatic energy in an electric field
Electrostatic energy is the potential energy that exists in a system of charged particles. In an electric field, electrostatic energy is the energy stored in the field due to the presence of electric charges. It is given by the equation:
U = 1/2ε0ΣkqkΣj≠kqj/rkj
where U is the electrostatic energy, ε0 is the permittivity of free space, qk and qj are the charges of particles k and j, and rkj is the distance between them.
Factors affecting electrostatic energy
The electrostatic energy in an electric field depends on several factors, including:
1. Magnitude of charges: The greater the magnitude of the charges, the greater the electrostatic energy in the field.
2. Permittivity: The permittivity of the medium between the charges affects the strength of the electric field and thus the electrostatic energy.
3. Applied electric field: The strength of the applied electric field affects the electrostatic energy stored in the field.
4. Flux lines: The distribution of flux lines in the field affects the electrostatic energy, as areas of high flux density correspond to high energy density.
Which factor does not affect electrostatic energy?
Out of the above factors, the electrostatic energy in an electric field does not depend on the strength of the applied electric field. This is because the electrostatic energy is a property of the charges in the field, and is independent of the external forces acting on them. The electrostatic energy is determined solely by the charges and their distribution in the field, as well as the permittivity of the medium. The applied electric field simply provides the means for the charges to interact with each other and build up the electrostatic energy in the field.
The electrostatic energy in an electric field does not depend on which...
Answer: c
Explanation: The energy in an electric field directly magnitude of charges. Thus electric field and flux density are also dependent. But the applied field affects only the polarisation and it is independent of the energy in the field.
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