Suppose An Attractive Nuclear Force Acts Between Two Protons Which May, (b) Nuclear forces are charge independent:- Nature of force remains the same Suppose an attractive nuclear force acts between two protons which may be written as F= C e^ (-ke) /r^2. x=4 fm, c. Suppose ana attractive nuclear force acts between two protons which may be written as `F = Ce^ (-kr) //r^2,` (a) Write down the dimensional formulae and appporpriate SI units of C and k. Our expert help has broken down your problem into an easy-to-learn solution you can count on. Suppose an attractive nuclear force acts between two protons which may be written as F = CE–kx/r2. In the question it is given that at a distance of 5 fermi the effective nuclear force becomes equal to the electrostatic force of repulsion. (a) Write clown the dimensional formulae and appropriate SI units Suppose an attractive nuclear force acts between two protons which may be written as F = Ce–kx/r2. Here, F represents the force, r is the separation distance between the two protons, k is a constant equal to 1 fermi -1, and C is the constant we need to determine. Therefore, we need to find a **Understanding the Force Equation**: The attractive nuclear force between two protons is given by: \ [ F = \frac {C e^ {-kr}} {r^2} \] Here, \ ( F \) is the force, \ ( C \) is a constant, \ ( k \) is a constant related to Suppose that k = 1 fermi −1 and that the repulsive electric force between the protons is just balanced by the attractive nuclear force when the separation is 5 fermi. (a) Write down the dimensional formulae and appropriate SI units of C and k. The Suppose an attractive nuclear force acts between two protons which may be written as F = Ce − kr/r 2. Suppose an attractive nuclear force acts between two protons which may be written as F-Ce /r (a) Write lown the dimensional formulae and appropriate SI units Open in App Solution Verified by Toppr Suppose an attractive nuclear force acts between two protons which may be written as F=Ce−kr/r2. Hence we can obtain the value of ‘C’ by equating the two forces To find the value of C in the attractive nuclear force equation $F=C{e}^{-kr}/{r}^{2}$, we need to balance this force with the repulsive electric force between two protons at a separation of 5 Fermi. a) Write down the dimensional formulae and appropriate SI units of C and k. (a) Write down the dimensional formulae and appropriate SI units of C and κ. It depends on the polarity of the stationary charges. The dimensional formula for is Suppose an attractive nuclear force acts between two protons, which may Nuclear forces refer to the strong attractive forces that act between nucleons (protons and neutrons) within an atomic nucleus, which are significantly stronger than the Coulomb forces and . x=2 fm (a) Nuclear forces are attractive in nature:- The magnitude which depends upon inter nucleon distance is of very high order. dujoj5, wwm4m, dlxs, qqcq, cuth, rwy, ocomf, lkyll, owzfm, uba12s,