The mass number 5 is not compatible with the number of neutrons 10.
Boron has 5 electrons and protons; the number of neutrons is specific for each isotope. Number of neutrons in a boron isotope = Mass number - 5
Since the mass number is protons plus neutrons, it would have 5 neutrons.
The mass of an atom is found by adding the number of the protons and neutrons. So, a boron atom with 5 protons and 6 neutrons would have an atomic mass of 11.
The mass is protons + neutrons. So, if the mass is 9 and it has 5 neutrons, then there must be FOUR (4) protons. This would be the element beryllium (Be).
Carbon's atomic number is 6, therefore it has 6 protons in its atoms. Mass number is the sum of protons and neutrons in the nucleus, which is 6 + 5 = 11.
To the find the mass number of an atom you add the protons and neutrons. Meaning that the mass number of this atom is 12.
There are 5 neutron in b-10, and 6 in boron-11
The mass number 5 is not compatible with the number of neutrons 10.
Boron has 5 electrons and protons; the number of neutrons is specific for each isotope. Number of neutrons in a boron isotope = Mass number - 5
Since the mass number is protons plus neutrons, it would have 5 neutrons.
The Atomic Mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.
The Atomic Mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.
The mass of an atom is found by adding the number of the protons and neutrons. So, a boron atom with 5 protons and 6 neutrons would have an atomic mass of 11.
The mass is protons + neutrons. So, if the mass is 9 and it has 5 neutrons, then there must be FOUR (4) protons. This would be the element beryllium (Be).
The Atomic Mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.
The Atomic Mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.