Consider a gold nucleus to be a sphere of redius 6.9 fermi in whichprotons and neutrons are distributed. Find the force of repulsion between two protons situated at largest separaton. Why do thes protons not fly apart under this repulsion

Repulsive force exist between two protons out side the nucleus. This is due to

Find the Coulomb force between two protons in a nucleus, if the average distance between two protons in a nucleus is 6 fm.

Find the electric force between two protons separted by a distance of 1 fermi (1fermi = 10^(15)m). The protons in a nucleus remain at a separaton of this order.

Find the electric force between two protons separted by a distance of 1 fermi (1fermi = 10^(15)m). The protons in a nucleus remain at a separaton of this order.

Find the electric force between two protons separated by a distance of 1 fermi (1fermi = 10^(15)m). The protons in a nucleus remain at a separation of this order.

Consider a sphere of radius R with charge density distributed as : rho( r) =kr, r le R =0 for r gt R (a) Find the electric field at all points r. (b) Suppose the total charge on the sphere is 2e where e is the electron charge. Where can two protons be embedded such that the force on each of them is zero. Assume that the introduction of the proton does not alter the negative charge distribution.

Consider a sphere of radius R with harge density distributed as p(r)=kr fro r le R=0 for r gt R . (a). Find the electric field as all points r. (b) Suppose the total charge on the sphere is 2e where e is the electron charge. Where can two protons be embedded such that the force on each of them is zero. Assume that the introduction of the proton does not alter the negative charge distribution.

Consider a sphere of radius R with charge density distributed as rho (R) = kr for r le R and = 0 for r gt R . (a) Find the electric field at all points r. (b) suppose the total charge on the sphere is 2e, where e is the electron charge. Where can two protons be embedded such that the force on each of them is zero. Assume that the introduction of the proton does not alter the negative charge distribution.

The nucleus in an iron atom has a radius of about 4.0xx10^(-15) m and contains 26 protons. What is the magnitude of the repulsive electrostatic force between two of the protons that are separated by 4.0xx10^(-15)m ?