A Carbon nucleus has a charge of +6e. At a distance of 10-10 m from a carbon nucleus, find (a) the electric potential; (b) the potential energy of an electron in electron volts and joules
We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
An electric field does 2.81 x 103 ev of work on a carbon nucleus of charge 9.61 x 10-19 C. Find the change in the nucleus' electric potential and electric potential energy in joules. HINT (a) change in electric potential (in V) 4.0 v (b) change in electric potential energy in joules
What is the potential difference VC - VB? VC - VB = ?????? volts What is the potential difference VD - VC? VD - VC = ?????? volts What is the potential difference VF - VD? VF - VD = ?????? volts What is the potential difference VG - VF? VG - VF = ?????? volts What is the potential difference VG - VA? VG - VA = ?????? volts The charged disks have tiny holes which allow a particle to...
An electric field does 1.13 ✕ 103 eV of work on a helium nucleus of charge 3.20 ✕ 10−19 C. Find the change in the nucleus' electric potential and electric potential energy in joules. a) change in electric potential (in V) I keep getting 566V but its wrong, why???
An electric field of strength E = 4700 N/C is directed along the +x-axis as shown. An electric field of strength E = 4700 N/C is directed along the +x-axis as shown. What is the magnitude of the potential difference between point B and point A if the distance between these two points is 10 cm? An electron is initially at rest at point B. How much kinetic energy (in electron-Volts, or eV) will the electron gain by moving to...
Locations A, B. and c are in a regon of uniform electric field, as shown n te diagram above. Location A is at <-03, o, o> m. Locaton cs atく0.4 electric field 1 . <-650, 350, o> NC. 0.3, 0M·In he region the For a path starting at C and endng at A, calculate: (a) The displacement vector Δ a7- (b) the change in electric potential: (e) the potential energy change for the system when a proton moves from c...
What is the electric potential 4.2×10−11 m from a proton (charge +e)? Let V=0 at r=∞. electric potential = 34V. What is the potential energy of an electron at this point in Joules?
With all my other questions it notified me if just the sign was wrong and this was not the case here, so I'm not sure at all. An electric field does 2.35 x 103 eV of work on a nitrogen nucleus of charge 1.12 x 10-18 c. Find the change in the nucleus' electric potential and electric potential energy in joules. HINT Apply the relation W -APE = -qAv Click the hint button again to remove this hint. (a) change...
Charge q1 = 7.5 nC is located at the coordinate system origin, while charge q2 = -3.33 mC is located at (a, 0), where a = 1.1 m. The point P has coordinates (a, b), where b = 0.25 m. A third charge q3 = 9.5 nC will be placed later. Part (a) Find the electric potential Vp at point P, in volts. Assume the potential is zero at infinity. Part (b) How much work II', in joules, would you have to...
Two facing surfaces of two large parallel conducting plates separated by 12.0 cm have uniform surface charge densities such that are equal in magnitude but opposite in sign. The difference in potential between the plates is 490 V. (a) Is the positive or the negative plate at the higher potential? O the pusitive plale O the negative plate (b) What is the magnitude of the electric field between the plates? kV/m (c) An electron is released from rest next to...
2. In the derivation of the energy levels in the hydrogen atom one commonly assumes that the nucleus is a point charge. However, in reality the size of the nucleus is of the order of Im = 10-15m. Since this is very much smaller than the typical distance of the electron from the nucleus, which is of the order of a0-0.5A = 0.5 × 10-10m, the finite size of the nucleus can be taken into account perturbatively. (a) Assume that...