Nuclear charge greater than 10 10. Rhenium has two naturally occurring isotopes: Re-185 with a natural...
The element europium (Z = 63) has two naturally occurring isotopes. One of the isotopes is 151 Eu, which has a mass of 150.9198 amu and a natural abundance of 47.81%. Calculate the mass of the other isotope. (Answer. 152.9 amu)
Rubidium has two naturally occurring isotopes: Rb-85 with mass 84.9118 amu and a natural abundance of 72.17 %, and Rb-87 with mass 86.9092 amu and a natural abundance of 27.83 fo Part A Calculate the atomic mass of rubidium. Express your answer using four significant figures. O AQ O ? Atomic Mass = amu Submit Request Answer
The element carbon has two naturally occurring isotopes. The isotopic masses and abundances of these isotopes are shown in the table below. Isotope 12c isotopic mass (amu) Abundance (%) 12.00 13.00 98.93 1.07 Calculate the average atomic mass of carbon to two digits after the decimal point. Number = _______ amu
An element has three naturally occurring isotopes with masses as listed below. The average atomic mass of this element is 28.08 amu. Determine the two missing percent abundances.^28X 27.98 amu % abundance =^29X 28.98 amu % abundance = 4.68 %^30X 29.97 amu % abundance =
Silver has two naturally occurring isotopes: Ag−107Ag−107 with a mass of 106.905 amu and a natural abundance of 51.84 %%, and Ag−109Ag−109. Use the atomic mass of silver listed in the periodic table to determine the mass of Ag−109Ag−109. Express your answer to four significant figures and include the appropriate units.
Bromine has two naturally occurring isotopes (Br?79 and Br?81) and has an atomic mass of 79.904 amu. The mass of Br?81 is 80.9163 amu, and its natural abundance is 49.31%.Calculate the mass of Br?79.. Br Express your answer using four significant figures. Calculate the natural abundance of Br?79. Express your answer using four significant figures.
An element has two naturally-occurring isotopes. The mass numbers of these isotopes are 111 amu and 113 amu, with natural abundances of 75% and 25%, respectively. Calculate its average atomic mass.
In another universe, element trinium has two naturally occurring isotopes, 34Tr and 35Tr. One of these has a natural abundance of about 10% and one is about 90%. If the atomic mass of trinium is 34.1 amu, what is most likely to be the isotope that is about 90% abundant? options: trinium-34 trinium-35
Indium (In ) has two naturally occurring isotopes: In−113 and In−115 . In−113 has a 4.30 % abundance and a mass of 112.9 amu , and In−115 has a 95.70 % abundance and a mass of 114.9 amu . Part A Calculate the atomic mass for indium using the weighted average mass method.
the element X has naturally occurring isotope. The masses (amu) and % abundance of the isotopes are given below. the average atomic mass of the element is ? Isotope: 221X, 220X, 218 X Abundance: 74.22, 12.78, 13.00 Mass: 220.9, 220.0, 218.1