6p and 7n
There are 6. It also has 7 neutrons. That's why it's called carbon thirteen.
In Carbon-12, the most abundant form of Carbon, there are 6 Neutrons, 6 Protons and 6 Electrons. In Carbon-14, the radioactive isotope of Carbon used in Carbon Dating, has 6 Protons, 8 Neutrons and 6 Electrons.
It is called an Isotope.... C12, C13, C14 is a classical example
If it is a pure element, yes usually but not always. If it is a mix of isotopes then no. Carbon for example is not pure C12 - with 6 protons and 6 neutrons. Naturally there is some C13 and traces of C14 with 7 and 8 neutrons respectively present.
The number above Carbon, 6, indicates that the element has 6 protons. It is also assumed that the Carbon atom is neutral (in a neutral atom, there are the same number of electrons as protons), so there will be 6 electrons as well. There will also be 6 neutrons unless otherwise specified that the atom is an isotope (has a different number of neutrons). Also, the number under the Carbon symbol indicates the average mass number, or the average sum of neutrons and protons. since it is about 12, you can just subtract 6 protons to get 6 neutrons.
6 protons 7neutrons 6electrons
There are 6. It also has 7 neutrons. That's why it's called carbon thirteen.
11 Carbon has atomic(proton) number 6. i.e it has 6 protons. There are three naturally occurring isotopes for carbon. They are C12 c13 and c14. among them c14 is radioactive. c12 has 6 protons and 6 neutrons. c13 has 6 protons and 7 neutrons. c14 has 6 protons and 8 neutrons. Similarly, c17 has 6 protons and 11 neutrons.
In Carbon-12, the most abundant form of Carbon, there are 6 Neutrons, 6 Protons and 6 Electrons. In Carbon-14, the radioactive isotope of Carbon used in Carbon Dating, has 6 Protons, 8 Neutrons and 6 Electrons.
It is called an Isotope.... C12, C13, C14 is a classical example
Isotopes have the same numbers of protons but different numbers of neutrons. One of the most common examples is carbon: C12 is the standard carbon atom, but C13 and C14, although still carbon atoms, have one or two extra neutrons.
If it is a pure element, yes usually but not always. If it is a mix of isotopes then no. Carbon for example is not pure C12 - with 6 protons and 6 neutrons. Naturally there is some C13 and traces of C14 with 7 and 8 neutrons respectively present.
C-13 has 1 extra neutron (6 protons, 7 neutrons, 6 electrons) where C-12 is in ordinary form (6 protons, 6 neutrons, 6 electrons)
You are probably referring to neutrons which are often found within the nucleus of an atom in numbers different from the protons. An atom of the element carbon, for instance, normally consists of 12 protons, 12 electrons and 12 neutrons. However, an isotope of carbon known as C13 consists of 12 protons, 12 electrons and 13 neutrons.
9.00 grams carbon 13 ( 1 mole C13/13.00355 grams)(6.022 X 1023/1 mole C13) = 4.17 X 1023 atoms of carbon 13 -------------------------------------------
The number above Carbon, 6, indicates that the element has 6 protons. It is also assumed that the Carbon atom is neutral (in a neutral atom, there are the same number of electrons as protons), so there will be 6 electrons as well. There will also be 6 neutrons unless otherwise specified that the atom is an isotope (has a different number of neutrons). Also, the number under the Carbon symbol indicates the average mass number, or the average sum of neutrons and protons. since it is about 12, you can just subtract 6 protons to get 6 neutrons.
'ISOTOPES'. The definitive statement is ' Isotopes of the same element have a different number of neutrons'. NB Do NOT confuse with 'Allotropes' . Allotropes of the same element exhibit different physical characteristics. The elements Sulphur and Phosphorus are the two classic examples of allotropes.