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Poisson and Laplace Equations - Electrostatics, Electromagnetic Theory, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET PDF Download
A useful approach to the calculation of electric potentials is to relate that potential to the charge density which gives rise to it. The electric field is related to the charge density by the divergence relationship
and the electric field is related to the electric potential by a gradient relationship
Therefore the potential is related to the charge density by Poisson's equation
In a charge-free region of space, this becomes LaPlace's equation
This mathematical operation, the divergence of the gradient of a function, is called the LaPlacian. Expressing the LaPlacian in different coordinate systems to take advantage of the symmetry of a charge distribution helps in the solution for the electric potential V. For example, if the charge distribution has spherical symmetry, you use the LaPlacian in spherical polar coordinates.
Since the potential is a scalar function, this approach has advantages over trying to calculate the electric field directly. Once the potential has been calculated, the electric field can be computed by taking the gradient of the potential.
Potential of a Uniform Sphere of Charge
The use of Poisson's and Laplace's equations will be explored for a uniform sphere of charge. In spherical polar coordinates, Poisson's equation takes the form:
but since there is full spherical symmetry here, the derivatives with respect to θ and φ must be zero, leaving the form
Examining first the region outside the sphere, Laplace's law applies.
Since the zero of potential is arbitrary, it is reasonable to choose the zero of potential at infinity, the standard practice with localized charges. This gives the value b=0. Since the sphere of charge will look like a point charge at large distances, we may conclude that
so the solution to LaPlace's law outside the sphere is
Now examining the potential inside the sphere, the potential must have a term of order r2 to give a constant on the left side of the equation, so the solution is of the form
Substituting into Poisson's equation gives
Now to meet the boundary conditions at the surface of the sphere, r = R
The full solution for the potential inside the sphere from Poisson's equation is
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FAQs on Poisson and Laplace Equations - Electrostatics, Electromagnetic Theory, CSIR-NET Physical Sciences - Physics for IIT JAM, UGC - NET, CSIR NET
| 1. What is the Poisson equation in electrostatics? |  |
Ans. The Poisson equation is a partial differential equation in electrostatics that relates the electric potential to the charge distribution in a system. It is given by ∇²V = -ρ/ε₀, where ∇²V represents the Laplacian of the potential V, ρ is the charge density, and ε₀ is the permittivity of free space.
| 2. How is the Laplace equation different from the Poisson equation? | |
Ans. The Laplace equation is a special case of the Poisson equation, where the charge density ρ is zero. In other words, it represents the electrostatic potential in the absence of any charge sources. The Laplace equation is given by ∇²V = 0, where ∇²V represents the Laplacian of the potential V.
| 3. What is the significance of the Poisson equation in electromagnetic theory? | |
Ans. The Poisson equation plays a crucial role in electromagnetic theory as it relates the electric potential to the charge distribution in a system. It allows us to determine the electric field and potential in various situations, such as around charged conductors, in capacitors, and in dielectric materials. The Poisson equation is an essential tool for solving a wide range of electrostatic problems.
| 4. How are the Poisson and Laplace equations used in solving practical problems in physics? | |
Ans. The Poisson and Laplace equations are used extensively in solving practical problems in physics, particularly in electrostatics and electromagnetism. These equations help in determining the electric potential and field in various systems, which is crucial for understanding the behavior of charges, conductors, capacitors, and other electrical components. By solving these equations, physicists can predict and analyze the behavior of electromagnetic systems and design devices accordingly.
| 5. How are the Poisson and Laplace equations related to the CSIR-NET Physical Sciences exam? | |
Ans. The Poisson and Laplace equations are fundamental concepts in the field of physics, particularly in the branch of electromagnetism. They are important topics covered in the CSIR-NET Physical Sciences exam, which tests candidates' knowledge and understanding of various physics concepts. Familiarity with these equations and their applications is essential for success in the exam.
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