what is a type III binary compound containing 3 atoms per molecule, with a total # of protons being 32? It's not Silicon dioxide, because SiO2 has 30 protons.. i need 32..
I don't know what a type III binary compound is. But SO2 may be the answer to your question. S = 16 and O = 8 + 8.
To find a Type III binary compound with 3 atoms per molecule and a total of 32 protons, we need to consider the possible elements that could make up the compound.
Let's start by determining the number of protons for each element in the compound. Since the compound has 3 atoms per molecule, we can divide the total number of protons by 3 to find the average number of protons per atom:
32 protons / 3 atoms ≈ 10.67 protons per atom
However, atoms cannot have fractional proton numbers, so we need to find elements with proximate average proton numbers.
Based on the periodic table, the elements with atomic numbers around 10.67 are:
1. Neon (Ne) - 10 protons
2. Sodium (Na) - 11 protons
3. Magnesium (Mg) - 12 protons
4. Aluminum (Al) - 13 protons
5. Silicon (Si) - 14 protons
Since you mentioned it is not Silicon, we can eliminate option 5.
Now we need to consider the possible combinations of the remaining elements to find a compound with a total of 32 protons:
1. Neon (Ne) - 10 protons + Neon (Ne) - 10 protons + Magnesium (Mg) - 12 protons = 32 protons
2. Neon (Ne) - 10 protons + Sodium (Na) - 11 protons + Sodium (Na) - 11 protons = 32 protons
3. Neon (Ne) - 10 protons + Magnesium (Mg) - 12 protons + Sodium (Na) - 11 protons = 33 protons (not a valid option)
Therefore, the only combination that satisfies the criteria is Neon (Ne), Neon (Ne), and Magnesium (Mg). The compound would be Ne2Mg.
Please note that this compound might not have a common name since these elements do not commonly form compounds in this arrangement.
To identify the type III binary compound containing 3 atoms per molecule and a total of 32 protons, we can first determine the elements involved in the compound. Since the compound is a binary compound, it consists of two different elements.
Since the total number of protons in the compound is 32, this means that the elements must have a combined atomic number of 32. Let's consider the possible combinations of elements that have atomic numbers adding up to 32:
1. Oxygen (O) has an atomic number of 8. If we combine Oxygen with another element, the atomic number of the other element must be 32 - 8 = 24. However, there is no element with an atomic number of 24.
2. Carbon (C) has an atomic number of 6. If we combine Carbon with another element, the atomic number of the other element must be 32 - 6 = 26. However, there is no element with an atomic number of 26.
Since we cannot find a valid combination of elements with atomic numbers adding up to 32, it seems there is no type III binary compound meeting the given criteria of having 3 atoms per molecule and a total of 32 protons. It's possible that the compound you are looking for doesn't exist or that there may be a mistake in the information provided.