27 protons, 32 neutrons, 0 electrons.
There are no electrons in the nucleus, they are in the orbitals surrounding the nucleus.
Cobalt-60 has 27 protons, (Cobalt has an atomic number of 27) 33 neutrons (mass number less atomic number) 27 electrons in the neutral atom (balancing the charge of the 27 protons)
Since cobalt has an atomic number of 27, any isotope of it contains 27 protons and 27 electrons per atom. The isotope with mass number 60 contains (60 - 27) or 33 neutrons per atom.
Cobalt has 27 protons, 27 electrons, and typically 32 neutrons.
The mass number for an atom is the sum of its protons and neutrons. Given that cobalt has 27 protons, an atom with 33 neutrons would have a mass number of 60 (27 protons + 33 neutrons).
To create a cobalt Bohr model, first determine the number of protons and electrons in a cobalt atom (27). Place the protons in the nucleus and distribute the electrons in energy levels (shells) around the nucleus, following the rules of Bohr's model. The first energy level can hold up to 2 electrons, the second can hold up to 8, the third can hold up to 18, and the fourth can hold the remaining electrons.
The protons and neutrons of cobalt just like any other element are located in the nucleus whereas the electrons are located in the energy shells.
27 protons are the number above the symbols
Cobalt-60 has 27 protons, (Cobalt has an atomic number of 27) 33 neutrons (mass number less atomic number) 27 electrons in the neutral atom (balancing the charge of the 27 protons)
There are 21 electrons and protons in the element Cobalt, and there are 58.933195 neutrons or 36.933195. If your working on a project and your in elementary or middle school you are very smart.Well Done. -Emily (5th Grader)
Since cobalt has an atomic number of 27, any isotope of it contains 27 protons and 27 electrons per atom. The isotope with mass number 60 contains (60 - 27) or 33 neutrons per atom.
Cobalt has 27 protons, 27 electrons, and typically 32 neutrons.
27number of protons is the same as the atomic number.
Cobalt-60 has an atomic number of 27, meaning it has 27 protons in its nucleus. It also has 33 neutrons, giving it a total of 60 nucleons. Electrons orbit the nucleus in energy levels, but the specific distribution of electrons in the energy levels is not relevant to the stability of Cobalt-60.
Cobalt, with atomic number 27, has 27 protons and 27 electrons in a neutral atom. The number of neutrons in cobalt can vary depending on the isotope. The most common isotope, cobalt-59, has 32 neutrons.
A number following an element, such as cobalt-60, tells us that a specific isomer of that element is being referenced. Isotopes are atoms of the same element that have a different number of neutrons in the nucleus. All cobalt atoms will have the same amount of protons, 27, because that is what makes it cobalt, however they can have a different amount of neutrons. The mass number is the number following the element's name and it tells us the total of both protons and neutrons in the nucleus. By subtracting the 27 protons in cobalt from the mass number of the isotope we find that cobalt-60 has 33 neutrons while cobalt-59 has 32 neutrons. This means that the structural difference between cobalt-60 and other isotopes of cobalt is the number of neutrons in the nucleus. Another fun fact: Cobalt-60 is the radioactive isotope commonly used in radiation therapy for cancer.
Cobalt (Co) has the atomic number 27; therefore, all neutral isotopes of cobalt have each 27 electrons. Stable cobalt exists only as Co-59 (with 32 neutrons); however, at least 28 radioisotopes of cobalt have been identified, ranging from Co-47 (with 20 neutrons) to Co-75 (with 48 neutrons).
The element cobalt has 27 protons. Since the sum of the number of protons and neutrons in your particular question is 59, the answer to what has 27 protons and 32 neutrons is the particular isotope of cobalt labeled 59Co. This is cobalt's only stable isotope.