The carbon atoms are sp2 hybridised.
C2H4, or ethene, has a trigonal planar molecular geometry due to its sp2 hybridization. This results in a flat, triangular shape with bond angles of approximately 120 degrees.
Two pi bonds are formed when sp2 hybridization occurs in ethene (C2H4). This is because each carbon atom forms a pi bond with the neighboring carbon atom, resulting in a double bond between the carbons.
C2h4 + o2 ------------- co2 + h2o c2h4 + 3o2 ------------- 2co2 + 2h2o
One Mole of C2H4 will containt 6.0221415×10^23 molecules of C2H4. Therefore 2.23 Moles of C2H4 will contain 1.39713683x10^24 molecules of C2H4. There are 4 Hydrogen atoms in C2H4, so 1.39713683x10^24 x 4 = 5.58854732X10^25 atoms of hydrogen.
C2H4 + H2O --> C2H5OHReaction balanced at 1:1:1 mole of each compound, so you'll need 0.132 mol C2H4 and this is equal to:0.132 (mol C2H4) * 28 (g/mol C2H4) = 3.696 g C2H4 = 3.70 g C2H4
This monomer is ethene (or ethylene) - C2H4.
The hybridization of NCl3 is sp3.
The chemical equation for the reaction of C2H4 with H2O is C2H4 + H2O → C2H5OH (ethanol). This reaction results in the formation of ethanol by adding water across the carbon-carbon double bond in ethylene (C2H4).
450 moles of C2H4 contain 10.815,43 g carbon.
There is one double bond in C2H4, which is between the two carbon atoms in the molecule.
C2H4 is the molecular formula for ethylene, which is a colorless and flammable gas commonly used in the production of plastics and as a plant hormone to stimulate fruit ripening. It is also known as ethene.
2C(s) + 2H2(g) + 52.5 kJ -> C2H4