Question 12 The figure shows four identical conducting spheres that are actually well separated from one...
The figure shows four identical conducting spheres that are actually well separated from one another. Sphere W (with an initial charge of zero) is touched to sphere A and then they are separated. Next, sphere W is touched to sphere B (with an initial charge of -34e) and then they are separated. Finally, sphere W is touched to sphere C (with an initial charge of 44e), and then they are separated. The final charge on sphere W is 14e. What...
The figure shows four identical conducting spheres that are actually well separated from one another. Sphere W (with an initial charge of zero) is touched to sphere A and then they are separated. Next, sphere W is touched to sphere B (with an initial charge of -32e) and then they are separated. Finally, sphere W is touched to sphere C (with an initial charge of 42e), and then they are separated. The final charge on sphere W is 22e. What...
Question 12 The figure shows four identical conducting spheres that are actually well separated from one another. Sphere W (with an initial charge of zero) is touched to sphere A and then they are separated. Next, sphere W is touched to sphere B (with an initial charge of -34e) and then they are separated. Finally, sphere W is touched to sphere C (with an initial charge of 46e), and then they are separated. The final charge on sphere W is...
The figure below shows four identical conducting spheres that are actually well separated from one another. Sphere W (with an initial charge of zero) is touched to sphere A and then they are separated. Next, sphere W is touched to sphere B (with an initial charge of −32e) and then they are separated. Finally, sphere W is touched to sphere C (with an initial charge of +40e), and then they are separated. The final charge on sphere W is +12e....
Scenario three is right but One and two are wrong You have four identical conducting spheres A, B, C, and 0, In each scenario below, sphere A starts with a charge of +Q, white B, C. and D start out with no net charge, and then the spheres are touched to each other and separated in the order described Any spheres not m contact are held very far away For each scenario, give the final charge of sphere B as...
You have four identical conducting spheres: A, B. C, and D. In each scenario, sphere A starts with a charge of +0 whereas B, C, and D start out with no net charge, and then the spheres are touched to each other and separated in the order described. Any spheres not in contact are held very far away. For each scenario, give the final charge of sphere B as a whole number fraction of Q. For example, if you decide...
You have four identical conducting spheres: A, B, C, and D. In each scenario, sphere A starts with a charge of + whereas B. C, and start out with no net charge, and then the spheres are touched to each other and separated in the order described. Any spheres not in contact are held very far away. For cach scenario, give the final charge of sphere B as a whole number fraction of Q. For example, if you decide that...
You have four identical conducting spheres: A, B, C, and D. In each scenario below, sphere A starts with a charge of -Q, sphere C starts out with a charge of +Q, and spheres B and D start out neutral. Then the spheres are touched to each other and separated in the order described. Any spheres not in contact are held very far away. For each scenario, give the final charge of sphere A as a whole number fraction of...
u have four identical conducting spheres: A, B, C, and D. In each scenario below, sphere A starts with charge of +Q, while B, C, and D start out with no net charge, and then the spheres are touched to each other and separated in the order described. Any spheres not in contact are held very far away. For each scenario, give the final charge of sphere B as a whole number fraction of Q. For example, if you decide...
In the figure three identical conducting spheres initially have the following charges: sphere A, 7Q; sphere B, - 8Q; and sphere C, 0. Spheres A and B are fixed in place, with a center-to-center separation that is much larger than the spheres. Two experiments are conducted. In experiment 1, sphere C is touched to sphere A and then (separately) to sphere B, and then it is removed. In experiment 2, starting with the same initial states, the procedure is reversed:...