Table of Contents
- 1 What is the difference between conducting sphere and non-conducting sphere?
- 2 What is a charged sphere?
- 3 What is the meaning of conducting and non conducting?
- 4 What happens when conducting spheres touch?
- 5 What is the difference between a charging sphere and a conductive sphere?
- 6 What is the difference between a spherical and a non- spherical charge?
What is the difference between conducting sphere and non-conducting sphere?
The difference between a conducting and non-conducting sphere is that the charge is present only on the surface for a conducting sphere but for a non-conducting sphere, it is uniformly distributed. Due to the same reason, the electric field due to both spheres will be very different.
What is a charged sphere?
Inside a Sphere of Charge The electric field inside a sphere of uniform charge is radially outward (by symmetry), but a spherical Gaussian surface would enclose less than the total charge Q. The charge inside a radius r is given by the ratio of the volumes: The electric flux is then given by. and the electric field is.
Is hollow sphere and spherical shell is same?
Answer: Both spherical shell and sphere are of same radius and have same charge. If the spherical shell and sphere are made of metal then there is no diffrence as all charge will reside on the surface in both cases. Spherical shell means it is hollow inside.
What is difference between conducting and non conducting material?
What is the Difference Between Conducting and Non Conducting Polymers. The key difference between conducting and non conducting polymers is that conducting polymers can conduct electricity, whereas non conducting polymers cannot conduct electricity.
What is the meaning of conducting and non conducting?
adjective. not able to conduct heat or electricity or sound. synonyms: nonconducting, nonconductive. Antonyms: conductive. having the quality or power of conducting heat or electricity or sound; exhibiting conductivity.
What happens when conducting spheres touch?
When the two conducting spheres are brought together to touch, it is as though they become one single big conductor and the total charge of the two spheres spreads out across the whole surface of the touching spheres. When the spheres are moved apart again, each one is left with half of the total original charge.
What is the difference between sphere and spherical shell?
A spherical shell is a region between two concentric spheres of differing radius whereas a sphere is a round solid figure, or its surface, with every point on its surface equidistant from its centre.
What is spherical conducting shell?
The electric field-lines produced outside such a charge distribution point towards the surface of the conductor, and end on the excess electrons. Moreover, the field-lines are normal to the surface of the conductor.
What is the difference between a charging sphere and a conductive sphere?
Conducting sphere is the one that don’t possess a particular charge but In them the movement of free electrons is easy. In charged sphere it possess particular charge like having more electrons or less.
What is the difference between a spherical and a non- spherical charge?
For a spherical charged Shell the entire charge will reside on outer surface and again there will be no field anywhere inside it. For a NON CONDUCTING charged SPHERE the there will be a electric field outside as well as inside.
What is the electric field inside a conducting hollow sphere?
Answer Wiki. A conducting hollow sphere will have the entire charge on its outer surface and the electric field intensity inside the conducting sphere will be zero. For a spherical charged Shell the entire charge will reside on outer surface and again there will be no field anywhere inside it.
What is the potential potential of a charged conducting sphere?
Potential: Charged Conducting Sphere. The use of Gauss’ law to examine the electric field of a charged sphere shows that the electric field environment outside the sphere is identical to that of a point charge. Therefore the potential is the same as that of a point charge: