Two uncharged metal spheres, spaced 25.0cm apart, have a capacitance of 26.0 pF. How much work...

Two small metal spheres are 26.0 cm apart. The spheres have equal amounts of negative charge...

Two small metal spheres are 26.0 cm apart. The spheres have equal amounts of negative charge and repel each other with a force of 0.036 N. What is the charge on each sphere? A +2.5 nC point charge is 3.3 cm away from a -3.1 nC point charge. What are the magnitude and direction of the acceleration of an electron at a point where the electric field has magnitude 6600 N/C and is directed due north?

Two identical conducting small spheres are placed with their centers 0.250 m apart. One is given...

Two identical conducting small spheres are placed with their centers 0.250 m apart. One is given a charge of 12.0 nC, and the other is given a charge of -16.0 nC. (a) Find the electric force exerted on one sphere by the other. Magnitude NDirection (b) The spheres are connected by a conducting wire. Find the electric force between the two after equilibrium has occurred. Magnitude NDirection

Two small spheres spaced 45.0 cm apart have equal charge. Part A How many excess electrons...

Two small spheres spaced 45.0 cm apart have equal charge. Part A How many excess electrons must be present on each sphere if the magnitude of the force of repulsion between them is 4.96×10−21 N ?

Two metal spheres each have a radius of 10.0 cm. The centers of the two spheres...

Two metal spheres each have a radius of 10.0 cm. The centers of the two spheres are 54.1 cm apart. The spheres are initially neutral, but a charge Q is transferred from one sphere to the other, creating a potential difference between the spheres of 107 V. A proton is released from rest at the surface of the positively charged sphere and travels to the negatively charged sphere. (a) What is the proton's kinetic energy just as it strikes the...

5. Two identical metal spheres are placed 15.0 cm apart. A charge of 6.00 µC is...

5. Two identical metal spheres are placed 15.0 cm apart. A charge of 6.00 µC is placed on one sphere while a charge of −2.00 µC is placed upon the other. What is the force on each sphere? If the two spheres are brought together and touched and then separated to their original separation, what will be the force on each sphere? Answer: F12 =4.80 N attractive     q = 2.00 μC           F12 = 1.60 N repulsive 7. Three charges q1...

Consider three identical metal spheres, A, B, and C. Sphere A carries a charge of -6q....

Consider three identical metal spheres, A, B, and C. Sphere A carries a charge of -6q. Sphere B carries a charge of +5q. Sphere C carries no net charge. Spheres A and B are touched together and then separated. Sphere C is then touched to sphere A and separated from it. Lastly, sphere C is touched to sphere B and separated from it. (a) How much charge ends up on sphere A? (b) How much charge ends up on sphere...

Consider three identical metal spheres, A, B, and C. Sphere A carries a charge of -2q....

Consider three identical metal spheres, A, B, and C. Sphere A carries a charge of -2q. Sphere B carries a charge of +3q. Sphere C carries no net charge. Spheres A and B are touched together and then separated. Sphere C is then touched to sphere A and separated from it. Lastly, sphere C is touched to sphere B and separated from it. (a) How much charge ends up on sphere A? q (b) How much charge ends up on...

Two conducting spheres are separated by 1.5 cm. One sphere is charged such that its total...

Two conducting spheres are separated by 1.5 cm. One sphere is charged such that its total charge is 32 nC. The other sphere is electrically neutral (has no net charge). A) Is there an apparent charge distribution on the neutral sphere due to the charged sphere? Qualitatively answer this using diagrams and terminology such as charge by induction, charge by conduction, dipole, octopole, etc. B) Imagine the spheres were allowed to touch for a brief moment and then separated back...

Two identical small metal spheres initially carry charges 푞1and 푞2. When they’re 1.0 m apart, they...

Two identical small metal spheres initially carry charges 푞1and 푞2. When they’re 1.0 m apart, they experience a 2.5-N attractive force. Then they’re brought together so charge moves from one to the other until they have the same net charge. They’re again placed 1.0 m apart, and now they repel with a 2.5-N force. What were the original charges 푞1and 푞2?

Consider three identical metal spheres, A, B, and C. Sphere A carries a charge of -6q....

Consider three identical metal spheres, A, B, and C. Sphere A carries a charge of -6q. Sphere B carries a charge of -5q. Sphere C carries no net charge. Spheres A and B are touched together and then separated. Sphere C is then touched to sphere A and separated from it. Last, sphere C is touched to sphere B and separated from it. For the following questions, express your answers in terms of q. (a) How much charge ends up...