There are many correct answers to this, as C6H12 has many isomers. Here are the first 17 that come to mind: * cyclohexane * methylcyclopentane * ethylcyclobutane * 1,(1/2/3)-dimethylcyclobutane * propylcyclopropane * 1-ethyl-(1/2)-methylcyclobutane * trimethylcyclopropane * hexa-(1/2/3)-ene * (2/3/4)-methylpent-1-ene * 2,3-dimethylbut-2-ene These are all valid answers as they all have six carbon atoms and twelve hydrogen atoms The edit saying "Glucose" is false as glucose is C6H12O6
C6H12(l)+9O2(g)---->6CO2(g)+6H2O(l) apex
C6H12 contains only two Elements, Carbon (C) and Hydrogen (H). It contains 6 atoms of Carbon, and 12 atoms of Hydrogen OR a total of 18 atoms.
No. The empirical formula of a substance is the formula in which each atomic symbol has the lowest possible subscript that gives the correct ratio between atoms for the compound as a whole. For C6H12, the empirical formula is CH2, but for C6H14, the empirical formula is C3H7.
C6h14
First calculate how many grams a mole of C6H12 weighs: Hydrogen is 1, and you have 12 hydrogens. Carbon is 6 and you have 6 carbons. So a mole weighs 1x12 + 6x6 = 48. Now multiply 48 x .61 and you have it. Final answer is in grams
C6H12 rapid decolonisation
hexagon
C6H12(l)+9O2(g)---->6CO2(g)+6H2O(l) apex
C6H12
Cyclohexane (C6H12) is a cycloalkane, not an esther.
Empirical formula gives the proportions of the elements present in a compound but not the actual numbers or the arrangement of atoms. The empirical formula for C6H12 is CH2.
C6H12 contains only two Elements, Carbon (C) and Hydrogen (H). It contains 6 atoms of Carbon, and 12 atoms of Hydrogen OR a total of 18 atoms.
The melting point for C6H12, which is a generic formula for a cycloalkane with 6 carbon atoms and 12 hydrogen atoms, can vary depending on the specific compound within that category. However, for common cycloalkanes like cyclohexane (C6H12), the melting point is approximately 6.5°C.
6co2+6h2o ->c6h12 o2+602 +_+
No. The empirical formula of a substance is the formula in which each atomic symbol has the lowest possible subscript that gives the correct ratio between atoms for the compound as a whole. For C6H12, the empirical formula is CH2, but for C6H14, the empirical formula is C3H7.
Both formulas are possible molecular formulas for the same empirical formula, CH2.
The molecular formula C6H12 contains two different elements: carbon (C) and hydrogen (H). Specifically, there are 6 carbon atoms and 12 hydrogen atoms in this compound.