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What is the distribution of the electric field inside a uniformly charged sphere?
The electric field inside a uniformly charged sphere is zero.
What is the distribution of the electric field inside a cavity within a uniformly charged sphere?
The electric field inside a cavity within a uniformly charged sphere is zero.
What is the distribution of the electric field inside a sphere?
The distribution of the electric field inside a sphere is uniform, meaning it is the same at all points inside the sphere.
What is the electric potential inside a uniformly charged sphere?
The electric potential inside a uniformly charged sphere is constant and the same at all points within the sphere.
The electrical intensity inside a charged hollow sphere is?
Zero, because the electric field inside a charged hollow sphere is zero. This is due to the Gauss's law and symmetry of the charged hollow sphere, which results in no net electric field inside the sphere.
What is the distribution of the electric field inside a uniformly charged sphere?
The electric field inside a uniformly charged sphere is zero.
What is the distribution of the electric field inside a cavity within a uniformly charged sphere?
The electric field inside a cavity within a uniformly charged sphere is zero.
What is the distribution of the electric field inside a sphere?
The distribution of the electric field inside a sphere is uniform, meaning it is the same at all points inside the sphere.
What is the electric potential inside a uniformly charged sphere?
The electric potential inside a uniformly charged sphere is constant and the same at all points within the sphere.
The electrical intensity inside a charged hollow sphere is?
Zero, because the electric field inside a charged hollow sphere is zero. This is due to the Gauss's law and symmetry of the charged hollow sphere, which results in no net electric field inside the sphere.
What are the properties of a charged sphere with a cavity?
A charged sphere with a cavity has the property that the electric field inside the cavity is zero. This means that any charge placed inside the cavity will not experience any electric force. The electric field outside the sphere behaves as if all the charge is concentrated at the center of the sphere.
What is the relationship between the voltage inside a uniformly charged sphere and the distribution of charge within the sphere?
The voltage inside a uniformly charged sphere is directly related to the distribution of charge within the sphere. As the charge distribution becomes more uniform, the voltage inside the sphere becomes more evenly distributed. This means that the voltage is higher towards the center of the sphere where the charge is concentrated, and decreases towards the surface where the charge is spread out.
What is the distribution of the electric field within a non-conducting sphere?
The distribution of the electric field within a non-conducting sphere is uniform, meaning it is the same at all points inside the sphere. This is because the electric field lines are evenly distributed in all directions from the center of the sphere.
What is the distribution of the electric field inside a sphere with non-uniform charge density?
The distribution of the electric field inside a sphere with non-uniform charge density varies depending on the specific distribution of charges within the sphere. The electric field strength at any point inside the sphere can be calculated using the principles of Gauss's Law and the superposition principle. The field strength will be stronger in regions with higher charge density and weaker in regions with lower charge density.
What is potential inside the hollow charged sphere?
Inside a hollow charged sphere, the electric potential is constant and zero throughout the interior of the sphere. This is because the electric field due to the charges on the outer surface cancels out within the hollow region, resulting in no work done on a test charge to move it within the hollow sphere.
Why the electric field inside charged hollow sphere zero?
The electric field inside a charged hollow sphere is zero because the net contribution from the charges on the inner surface of the sphere cancels out due to symmetry. This means that the field created by the positive charges is equal and opposite to the field created by the negative charges, resulting in a net field of zero inside the sphere.
What is the relationship between the electric field produced by a point charge and a charged sphere?
The electric field produced by a point charge is directly proportional to the charge and inversely proportional to the square of the distance from the charge. For a charged sphere, the electric field outside the sphere behaves as if all the charge is concentrated at the center, similar to a point charge. Inside the sphere, the electric field is zero.
