1. FALSE
because charge will distribute until potential on both become same.
2. FALSE
because when connected by conducting wire then potential become same and not electric field.
3. TRUE
as all facts placed in explanation are correct.
4. TRUE
because for sharper spots, r is less so E is stronger as explained in 3rd part
Two conducting spheres with radius r1 and r2 and charges q1 and q2, respectively, are connected...
Select Tru or False. 1. A conducting sphere with charge Q at equilibrium has zero E field inside it. The E field outside is the same as that of a point charge Q, E=keQ/r2. The potential outside it is the same as that of a point charge Q. V= keQ/r. (r is the distance to the center). The potential inside the conducting sphere is equal to the potential at its surface. V= keQ/R. (R is the radius of the sphere)...
4. Two conducting spheres are far apart. The smaller sphere has radius R and carries a total charge of Q. The larger sphere has a radius 2R and is neutral. After the two spheres are connected by a conducting wire, find the potential of each sphere (5points) the new charges on each sphere. (10 points) (iii) the electric field on each sphere due to its new charge (10 points)
4. Two conducting spheres are far apart. The smaller sphere has radius R and carries a total charge of Q. The larger sphere has a radius 2R and is neutral. After the two spheres are connected by a conducting wire, find (1) the potential of each sphere (5points) the new charges on each sphere. (10 points) the electric field on each sphere due to its new charge (10 points)
4. Two conducting spheres are far apart. The smaller sphere has radius R and carries a total charge of Q. The larger sphere has a radius 2R and is neutral. After the two spheres are connected by a conducting wire, find (1) the potential of each sphere (Spoints) the new charges on each sphere. (10 points) (iii) the electric field on each sphere due to its new charge (10 points)
4. Two conducting spheres are far apart. The smaller sphere has radius R and carries a total charge of Q. The larger sphere has a radius 2R and is neutral. After the two spheres are connected by a conducting wire, find (1) the potential of each sphere (Spoints) the new charges on each sphere. (10 points) (iii) the electric field on each sphere due to its new charge (10 points)
As shown in the right figure, the electric charges Q1 and Q2 are charged in the state that the metal spheres having the radius R1 and R2 are not connected to each other. Suppose that the distance between the centers of the two metal spheres is large enough for the radius. (a) Calculate the potential at each metal sphere. (5) (b) Calculate the potential of the metal sphere when the two metal sphere are connected by conductors. (5) Q2 Q1...
a charge is placed on a spherical conductor of radius r1. this sphere is then connected to a distant sphere of radius r2 (not wqual to r1) by aconducting wire. after the charges on the spheres are in equilibrium
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)
A conducting sphere of radius r1 = 0.26 m has a total charge of Q = 1.1 μC. A second uncharged conducting sphere of radius r2 = 0.45 m is then connected to the first by a thin conducting wire. The spheres are separated by a very large distance compared to their size. What is the total charge on sphere two, Q2 in coulombs?
Electric potential for a continuous charge distribution: Let's consider a line of charge, of length L having a uniform charge density lambda = 10^-6 C/m and length L=10 cm. Find the electric potential at point P, which is at a distance Z=5 cm. above the midpoint of the line. where In is the natural logarithm. Consider two charged conducting spheres, radii r1 and r2, with charges q1 and q2, respectively. The spheres are far away from each other but connected...