9. Two charged conductors are brought into contact. after they reach electrostatic equilibrium they are separated....
Verufy that the electric field satisfies the 3rd rule of conductors in electrostatic equilibrium A metal sphere of radius R has charge Q and it's placed far away from any other charges or electric fields, so that charge Q is uniformly distributed over the surface of the sphere. Verify that electric field E near the surface of the sphere and surface charge density sigma satisfy the "3^rd rule of conductors in electrostatic equilibrium", i.e. E = sigma/epsilon_0
Two charged spheres are brought together and separated. What is the final charge for each sphere?
can you explain both of??? Two neutral conductors are connected by a wire and a charged rod is brought near, but does not touch. The wire is taken away, and then the charged rod is removed. What are the charges on the conductors? O A) B) D) E) Two neutral conductors are connected by a wire and a charged rod is brought near, but does not touch. The charged rod is removed, then the wire is taken away. What are...
DA negatiyely charged rod is brought with each neutral spheres that are in contact other but insulated from If the two spheres are then seperated, what kind Charge on the spheres becomes A.) The sphere near the charged becomes positive and the other one 8. The sprere near the charged and becomes negative and the other one c.) The sphere do not ome per any charge es Botte spheres become get spheres become negative pocnitione
Two conducting spheres are brought into contact, as shown: -1C +2C. depict the transfer of charged. State the final charge on each sphere.
CL-3. Two identical conducting spheres are held on insulating stands with their centers 0 shown below. Sphere A Sphere B 0.300m While in this position each sphere repels the other with a force of 1.60N. The two spheres are brought into contact with each other and allowed to reach electrostatic equilibrium (for which they have equal final charges). The spheres are then returned to their original separation where they are now found to repel each other with a force of...
The figure above shows two charged spherical conductors, X and which are equal in size. When each conductoris isolated and surrounded by a closed cubical surface, the total electric flux through the surfaces is for conductor X and -40 for conductor Y Conductor Y is then moved closer to conductor Xuntil it is just outside a closed cubical surface containing conductor X as shown in the figure above. How would the total electric flux through the cubical surface change as...
two charged spherical conductors of radius R1=6cm and R2=2cm are separated by a distance much greater than 6cm and are connected by a long, thin conducting wire. a total charge Q=80nc is placed on one of the spheres. (a) what is the charge on each sphere? (b) what is the electric field near the surface of each sphere? (c) what is the electric potential of each sphere? (assume that the charge on the connecting wire is negligible)
Two spherical conductors are separated by a distance much larger than either of their radii. Sphere A has a radius of 46.5 cm and a net charge of -95.5 nC, whereas sphere B, which is initially neutral, has a radius of 94.4 cm. The two spheres are then connected by a thin metal wire. What is the charge on sphere B after equilibrium has been reached? charge on sphere B: -31.52 nc
Two identical charged metallic sphares are separated by 7.6 cm has attractive electrostatic force between them. They are made to touch each other and seperated to 7.6 cm distance again. As a result the force turns to repulsive and 10 times smaller in magnitude than the earlier attractive force. If 87 micro C charge is exchanged during this process, find the magnitude of charge (in micro C) left in each sphere at the end.