Ethyne (C2H2) can be converted into ethane (C2H6) by addition of hydrogen gas (H2) in the presence of a suitable catalyst, such as palladium or platinum. This process is known as hydrogenation and involves breaking the triple bond in ethyne and adding hydrogen atoms to form single bonds between carbon atoms in ethane.
Acetic acid can be converted to ethane through decarboxylation, where acetic acid undergoes thermal decomposition to produce carbon dioxide and ethane. This process typically requires high temperatures and pressure.
In polyethylene, ethane molecules are converted into ethylene molecules through a process called cracking. Ethylene molecules are then polymerized to form the long chains of polyethylene. Ethane serves as the starting material for the production of ethylene, which is the building block of polyethylene.
Sodium propanoate cannot be directly converted into ethane. Ethane is a simple hydrocarbon (C2H6), while sodium propanoate is a salt of propanoic acid. You would need a series of complex chemical reactions involving multiple steps to convert sodium propanoate into ethane.
Three hydrocarbons are methane (CH4), ethane (C2H6), and propane (C3H8). These are organic compounds composed entirely of carbon and hydrogen atoms. They are often used as fuels due to their high energy content.
Oxidation
Halogenation
Ethyne (C2H2) can be converted into ethane (C2H6) by addition of hydrogen gas (H2) in the presence of a suitable catalyst, such as palladium or platinum. This process is known as hydrogenation and involves breaking the triple bond in ethyne and adding hydrogen atoms to form single bonds between carbon atoms in ethane.
Ethane applications are: - precursor in ethylene preparation (the most important use) - refrigerant - fuel
Acetic acid can be converted to ethane through decarboxylation, where acetic acid undergoes thermal decomposition to produce carbon dioxide and ethane. This process typically requires high temperatures and pressure.
Ethane cannot be directly prepared from sodium propionate. Sodium propionate can be converted to propanoic acid through acidification. Propanoic acid can then be decarboxylated to produce ethane, but this process involves additional steps and reagents.
∆Hf values are used to find products-reactants. 4(-393.5)+6(-285.8)=-3288.8, sum of products, minus 2(-84)= -3120.8divide by 2 since its two moles and you only want one= -1560.4divide by the molar mass of ethane, 30.07, and you get -51.892.make it positive because fuel values are positive and you get 51.892 as your final answer
In polyethylene, ethane molecules are converted into ethylene molecules through a process called cracking. Ethylene molecules are then polymerized to form the long chains of polyethylene. Ethane serves as the starting material for the production of ethylene, which is the building block of polyethylene.
Sodium propanoate cannot be directly converted into ethane. Ethane is a simple hydrocarbon (C2H6), while sodium propanoate is a salt of propanoic acid. You would need a series of complex chemical reactions involving multiple steps to convert sodium propanoate into ethane.
Ethane is a hydrocarbon that can be used as a fuel for heating and cooking. It can also be processed into ethylene, a key component in the production of plastics and other chemical products.
Ethane cannot be directly prepared from iodoethane. However, iodoethane (also known as ethyl iodide) can be converted to ethane through a series of chemical reactions involving dehydrohalogenation or Wurtz reaction. This typically involves using strong bases like sodium or potassium hydroxide to remove the iodine atom from iodoethane and convert it to ethane.
Three hydrocarbons are methane (CH4), ethane (C2H6), and propane (C3H8). These are organic compounds composed entirely of carbon and hydrogen atoms. They are often used as fuels due to their high energy content.