No, not compounds, they all are polyatomic elements
hydrogen H2 nitrogen N2 oxygen O2 fluorine F2 chlorine Cl2 bromine Br2 iodine I2 ozone O3 phosphorus P4 sulfur S8
One example is the water molecule, H2O, which contains hydrogen and oxygen atoms. Another example is the ammonia molecule, NH3, which contains nitrogen and hydrogen atoms. Both of these molecules are polyatomic molecules with atoms of different elements.
S8 is the symbol of an allotrope of sulfur, a chemical element - not a compound.
S8 solid sulfur (i.e 8 sulfur atoms covalently bound together), and O2 is a molecule of oxygen gas ( two oxygen atoms bounds together)
Sulfur is generally S8. S8 + 8 O2 → 8 SO2
Water (H2O), carbon dioxide (CO2), sulfur dioxide (SO2), ammonia (NH3), and methane (CH4) are all examples of polyatomic molecules. These molecules contain more than two atoms chemically bonded together to form a stable structure.
hydrogen H2 nitrogen N2 oxygen O2 fluorine F2 chlorine Cl2 bromine Br2 iodine I2 ozone O3 phosphorus P4 sulfur S8
Type of reaction for S8 + O2
One example is the water molecule, H2O, which contains hydrogen and oxygen atoms. Another example is the ammonia molecule, NH3, which contains nitrogen and hydrogen atoms. Both of these molecules are polyatomic molecules with atoms of different elements.
The number of atoms of each element must be the same on both sides of the equation. Therefore, the reaction is as follows: S8 + 8O2 ---> 8SO2 Keep in mind that the subscripts of the products and reactants cannot be changed.
An element is only made of one type of atom; eg. O2 (oxygen), O3 (ozone), C4 (diamond), C6 (graphite), P4 , S8 etc. are all elements.
A polyatomic molecule is an uncharge particle which has more than two atoms; a molecule consisting of atoms from a single element.
S8 is the symbol of an allotrope of sulfur, a chemical element - not a compound.
Yes, H2O2 is the compound hydrogen peroxide
S8 solid sulfur (i.e 8 sulfur atoms covalently bound together), and O2 is a molecule of oxygen gas ( two oxygen atoms bounds together)
First, balance the chemical equation: S8 + 8 O2 -> 8 SO2. Calculate the moles of each reactant using their molar masses. The limiting reactant is the one that produces the least amount of SO2, which is S8 in this case. Therefore, use the stoichiometry of the balanced equation to calculate the mass of SO2 produced from 31.5g of S8.
Sulfur is generally S8. S8 + 8 O2 → 8 SO2