An isotope of Carbon (C-13).
This C-13 isotope has a natural abundance of 1.1%. That means that 1.1% of all the Carbon atoms have this configuration.
The most abundantly found isotope (C-12) has 6 protons, 6 neutrons and 6 electrons. 98.9% of all the Carbon atoms have this configuration.
An isotope of Carbon (C-13).
This C-13 isotope has a natural abundance of 1.1%. That means that 1.1% of all the Carbon atoms have this configuration.
The most abundantly found isotope (C-12) has 6 protons, 6 neutrons and 6 electrons. 98.9% of all the Carbon atoms have this configuration.
Boron has 5 protons and electrons and 6 neutrons. The symbol for Boron is B and its atomic number is 5.
13N2+ if it exists so Nitrogen 13 with a +2 charge
In identifying an element the only thing that matters is the number of protons. Since there are 7 protons the element is nitrogen.
This is the isotope carbon-13 (-1).
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Five protons makes this the element boron. The number of protons is the atomic number, and determines the identity of an element. This example would be the boron-12 isotope because it contains 5 protons and 7 neutrons.
As you already know the atom consists of protons, neutron and eletrons. The number of protons determins which chemical element it is, and on the periodic table of elements, we can see that the next element after lithium is beryllium.-An atom with 3 protons, 3 neutrons, and 3 electrons.- An atom with 3 protons, 5 neutrons, and 3 electrons
5 Protons,6 Electrons,5 Neutrons
Protons: 5 Neutrons: 7 Electrons: 5
The mass number is the total number of protons and neutrons (together known as nucleons) in an atomic nucleus.Thus add the number of neutrons (20) to the atomic number (which is a count of the number of protons) 19 to give a mass number of 39.
Be- Beryllium
It is the boron element. It contains similar numbers of electrons and protons.
5 protons 8 neutrons try it
The isotope boron-11 has 5 protons and 6 neutrons, but also 5 electrons not 8.
Boron 10: 5 protons, 5 neutrons, 5 electrons Boron 11: 5 protons, 6 neutrons, 5 electrons
Neutrons do not affect the neutrality (or charge) of an atom; protons and electrons do. In order to be neutral, the number of protons must be the same as the number of electrons.
Five protons makes this the element boron. The number of protons is the atomic number, and determines the identity of an element. This example would be the boron-12 isotope because it contains 5 protons and 7 neutrons.
That seems to be an invalid notation. The subscript refers to the number of protons (5=Boron), but 'C' refers to the element (Carbon). Ignoring the 'C', Protons: 5 (Boron) Neutrons: 13-5= 8 Neutrons Electrons: 4+5= 9 Electrons
boron10 would be the isotope that matches these descriptions
Boron Boron BoronBoron's atomic number is 5, meaning 5 protons and 5 electrons.Boron's Relative Atomic Mass is approximately 10.8To find neutrons, you subtract the atomic number from the atomic mass.10.8 - 5 = 5.8 (or 5)Boron has 5 protons, 5 electrons and 5.8 neutrons
4 protons, 4 electrons and 5 neutrons
All beryllium atoms have 4 protons and 4 electrons. The number of neutrons is characteristic of a particular isotope, not of beryllium as a whole, and may be determined by subtracting 4, the number of protons, from the mass number of the isotope.