A spherical conductor with a 0.493 m radius is initially uncharged. How many electrons should be removed from the sphere in order for it to have an electrical potential of 8.10 kV at the surface?
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A spherical conductor with a 0.493 m radius is initially uncharged. How many electrons should be removed from the sphere in order for it to have an electrical potential of 8.10 kV at the surface?
![**Problem Statement:**
A spherical conductor with a radius of 0.493 meters is initially uncharged. How many electrons should be removed from the sphere in order for it to have an electrical potential of 8.10 kV at the surface?
**Input Box:**
- [_____] electrons](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2a03be36-5dfa-4a37-af0e-f31c338c2b5f%2F8fa84be7-2dbb-4572-83e7-bd95fa1f1e50%2F2q8jyzr_processed.png&w=3840&q=75)
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- There is a potential difference between the inner and outer surfaces of a cell membrane 7.5 nm thick. It takes +0.6 × 10−20 J of work for a biological pump to eject a positive singly-ionized sodium atom (Na+) from the interior of the cell. Neglecting any work the pump might have to do to overcome any non-electrostatic forces, what is the magnitude of the potential difference between the inner and outer surfaces of the cell?A 2.00 nC charge is placed on the x-axis at x = -3.00 cm, another 2.00 nC charge is placed on the x-axis at x = 3.00 cm, and a third 2.00 nC charge is placed on the y-axis at y = 3.00 cm. What is the potential at the origin? %3D 2700 V 3600 V 5400 V O 1800 V O 108 VA parallel-plate capacitor under the key of a keyboard has circular plates that are separated by 0.0500 mm and filled with a dielectric with k = 4.00. When the potential difference across the plates is 5.00 V , the magnitude of the charge on each plate is 8.897 pC. What is the radius of one of the plates? When the key is pressed, the distance between the plates decreases, increasing the capacitance to 1.85 pF. What is the separation between the plates when the key is pressed?
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- A potential difference exists between the inner and outer surfaces of the membrane of a cell. The inner surface is negative relative to the outer surface. If 1.35 x 10-20 J of work is required to eject a positive sodium ion (Na+) from the interior of the cell, what is the magnitude of the potential difference between the inner and outer surfaces of the cell? magnitude of the potential difference: 84.38 IncorrectThe drawing shows six point charges arranged in a rectangle. The value of q is 4.68 μµC, and the distance d is 0.335 m. Find the total electric potential at location P, which is at the center of the rectangle. Number i +7g d D d 5g Units +3q P 3g d d +5g +7gk3 8.99 x 10° Nm?/C?, me 3D 9.11 x 10-31 kg, e %3D 1.6 х 10-19 С, тр 3D 1.67 х 10-27 kg 1. Electrons start from rest and are accelerated east by two plates (parallel to the north/south directions) through a potential difference. They then pass into a second set of parallel plates 1.2 cm long (parallel to the east/west direction). When the electrons leave the second set of plates they are moving at 3.0 x 106 m/s [E 30º N]. You may ignore gravity. (For this question but not in the real world!) Find the potential difference across the first set of plates and the electric field between the second set of plates. 1.2 cm Path of electron First set of plates Second set of plates
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