363844 If \({r_1}\) and \({r_2}\) are the radii of the atomic nuclei of mass numbers 64 and 125 respectively, then the ratio \(\left( {{r_1}/{r_2}} \right)\) is

363845 The nuclear size is measured in units of

363846 The ratio of the nuclear radii of the gold isotope \({}_{79}^{197}Au\) and silver isotope \({}_{47}^{107}Ag\) is:

363847 The ratio of the density of oxygen nucleus \(\left( {_8^{16}O} \right)\) and helium nucleus \(\left( {_2^4He} \right)\) is

363844 If \({r_1}\) and \({r_2}\) are the radii of the atomic nuclei of mass numbers 64 and 125 respectively, then the ratio \(\left( {{r_1}/{r_2}} \right)\) is

363845 The nuclear size is measured in units of

363846 The ratio of the nuclear radii of the gold isotope \({}_{79}^{197}Au\) and silver isotope \({}_{47}^{107}Ag\) is:

363847 The ratio of the density of oxygen nucleus \(\left( {_8^{16}O} \right)\) and helium nucleus \(\left( {_2^4He} \right)\) is

363844 If \({r_1}\) and \({r_2}\) are the radii of the atomic nuclei of mass numbers 64 and 125 respectively, then the ratio \(\left( {{r_1}/{r_2}} \right)\) is

363845 The nuclear size is measured in units of

363846 The ratio of the nuclear radii of the gold isotope \({}_{79}^{197}Au\) and silver isotope \({}_{47}^{107}Ag\) is:

363847 The ratio of the density of oxygen nucleus \(\left( {_8^{16}O} \right)\) and helium nucleus \(\left( {_2^4He} \right)\) is

363844 If \({r_1}\) and \({r_2}\) are the radii of the atomic nuclei of mass numbers 64 and 125 respectively, then the ratio \(\left( {{r_1}/{r_2}} \right)\) is

363845 The nuclear size is measured in units of

363846 The ratio of the nuclear radii of the gold isotope \({}_{79}^{197}Au\) and silver isotope \({}_{47}^{107}Ag\) is:

363847 The ratio of the density of oxygen nucleus \(\left( {_8^{16}O} \right)\) and helium nucleus \(\left( {_2^4He} \right)\) is