The molecular geometry of C2H2 is linear. This is because acetylene (C2H2) has a linear molecular structure, with the carbon atoms forming a triple bond and two hydrogens attached to each of the carbons, resulting in a linear shape.
C2H2 (acetylene) is a linear molecule.
PH3: Trigonal pyramidal CH4: Tetrahedral HClO: Bent N2: Linear CH3NH2: Trigonal pyramidal H2CO: Trigonal planar C2H2: Linear CH3Cl: Tetrahedral HCOOH: Bent HCN: Linear H2O2: Bent
C2H2 is a molecular formula because it shows the actual number of atoms of each element present in a molecule of acetylene.
The molecular formula for the empirical formula C2H2 is also C2H2. The empirical formula gives the simplest whole number ratio of atoms present in a compound, whereas the molecular formula provides the actual number of atoms of each element in a molecule.
The molecular formula of acetylene gas is C2H2. The shape of the molecule is linear, with the two carbon atoms joined by a triple bond and each carbon atom also bonded to one hydrogen atom by a single bond.
The molecular shape of SCl6 is octahedral.
in single bond hybridization will be sp3 and take tetrahedral shape as in CH4 in double bond hybridization will be sp2 and take planar triangle shape as in C2H4in triple bond hybridization will be sp and take linear shape as in C2H2
C2H2 no, isn't it H-C=C-H (the equals sign should have three lines but I don't know how do do that on the computer) C2H2 is the molecular formula, H-C=C-H is the structural formula.
Tetrahedral However, it is not a uniform tetrahedron, but biased in favour of 'H' .
Silver(I) carbide is Ag2C2 and it is not soluble in water, so it is not likely to hydolyze. But if it were to, on a strictly theoretical basis, it would form the weak acid C2H2 and the base AgOH.Ag2C2 + 2H2O ==> 2AgOH + C2H2
The molecular shape name for C3H8 is a tetrahedron.