Given that Cubes 1 and 2 attract and Cube 3 is a neutral conductor, which of the following configurations below illustrates the correct electrostatic interactions between Cubes 1 and 3 and Cubes 2 and 3?
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A: Only Part B If you have any questions related to this problem please feel free to ask me).
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- Please type the answer instead of hand writtingThree charged marbles are glued to a nonconducting surface and are placed in the diagram as shown. The charges of each marble are q, = 6.10 µC, q, = 1.00 µC, and 93 = -2.20 µC. Marble q, is a distance r, = 3.00 cm to the left of the marble q,, while marble q, is a distance r, = 2.00 cm to the right of the marble q,, as shown. 91 92 93 2 = 0 m observation point Calculate the magnitude of the electric field a distance r' = 1.00 cm to the left of the center marble. N/C Another marble is placed 1 cm to the left of the middle marble. If this new marble has a charge of 3.50 µC, calculate the magnitude and direction of the force on it. magnitude N direction ---Select--- VTwo pieces of scotch tape are stuck together such that the sticky side of the top tape adheres to the slippery side of the bottom tape. What can you conclude about the net charge on each tape after they are peeled apart? O They have the same amount of net charge but one is positive the other is negative. O The bottom tape has a net positive charge. The top tape is neutral. O Charge cannot be created or destroyed. O The bottom tape has a net negative charge. The top tape is neutral.
- Find some small light pieces of paper and you'll notice in the paper experiments that as you bring the comb up to the paper bits or a lightweight sheet it will move. Almost any small material -- bread crumbs work -- will be attracted, not repelled. Given that the comb is already charged, which explanation is the best? Since the comb is negative, electrons on the paper are repelled and there is net positive charge closest to the comb. That creates net force in the direction of the comb and if it is light enough, the bits experience a net upward force that accelerates them toward the comb. Paper is always negatively charged. The paper may have either positive or negative charge randomly, some bits will go toward the comb, some will be repelled. Paper is always positively charged.Please read the question and leave notes on the answer where appropriate. Please DO NOT skip any steps. Please double check your answer. Please do not type out a response. Please use LaTeX or use a hand written response that is LEGABLE. Please review your answer to make sure all steps are clearly visable. Please double check your work. Thank you.2
- Current Attempt in Progress Two very small spheres are initially neutral and separated by a distance of 0.566 m. Suppose that 8.14 x 1013 electrons are removed from one sphere and placed on the other. (a) What is the magnitude of the electrostatic force that acts on each sphere? (b) is the force attractive or repulsive? (a) Number (b) The force is i e Textbook and Media Save for Later Units Attempts: 0 of 6 used Submit AnsweF = 0.06 N and v = 7 m/s. %3D If B = 2 mT what is the value of the charge q in Coulombs?. Select one: а. 230 O b. 4.3 Oc. 0.0043 O d. 0.23I am working on this review question and i couldn't come up with the correct solution. I need a well-explained solution so i can understand the solution and leverage this solution to answer more questions like this.
- You must solve both the questions here.Otherwise skip it pls. Request u Don't solve only one. If u do, I will dislike it.In the figure three identical conducting spheres initially have the following charges: sphere A, 6Q: 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: Sphere C is touched to sphere B and then (separately) to sphere A, and then it is removed. What is the ratio of the electrostatic force between A and B at the end of experiment 2 to that at the end of experiment 1? Number i Units C BTwo electrons in an atom are separated by 1.6 × 10-10 m, the typical size of an atom. What is the force between them? Coulomb constant is 9 × 10⁹ Nm²/C². Answer in units of N. The T 06