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 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).
The hybridization of NCl3 is sp3.
There is one double bond in C2H4, which is between the two carbon atoms in the molecule.
450 moles of C2H4 contain 10.815,43 g carbon.
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