The volume of ethane (C2H6) can vary depending on the temperature and pressure conditions. The density and specific weight of ethane at different temperature and pressure values can be calculated using the appropriate equations and conversion factors.
However, without specific temperature and pressure values, it is not possible to provide an exact volume measurement for ethane. The volume of ethane https://bbgate.com/tags/nitroethane/ can be determined using the ideal gas law equation, which relates the volume of a gas to its pressure, temperature, and number of moles.
Please note that the information provided here is a summary of the search results, and more detailed information on the volume of ethane at specific conditions can be found in the provided sources.
The reaction between ethane (C2H6) and potassium permanganate (KMnO4) is not a commonly known reaction. Potassium permanganate is typically used as an oxidizing agent in reactions involving alkenes (such as ethene) rather than alkanes (such as ethane)
When alkenes react with potassium permanganate, the double bond in the alkene is oxidized, resulting in the formation of diols (compounds with two hydroxyl groups). For example, ethene can react with acidified potassium permanganate to form ethan-1,2-diol
However, ethane, being an alkane, does not have a double bond and is relatively unreactive towards oxidizing agents like potassium permanganate. Therefore, no significant reaction is observed between ethane and potassium permanganate