i dont know show why are you looking on this website so go n get lost u stupid idiot. go sum wher else lozer
The polarity difference between ethanol and water affects their interactions in a solution because water is a polar molecule with positive and negative charges, while ethanol is also polar but less so. This difference in polarity allows ethanol and water to mix well together, forming a homogeneous solution. The positive and negative charges in water attract the ethanol molecules, leading to strong interactions between the two substances.
Ethanol is a general term for the chemical compound with the formula C2H5OH, commonly known as alcohol. Absolute ethanol refers to ethanol that is at least 99% pure, with the remaining percentage being water. Absolute ethanol is often used in scientific and industrial applications where purity is critical.
There is no difference between ethyl alcohol and ethanol, they are the same substance. Ethanol is the chemical name for the alcohol commonly found in beverages and used in industry.
Ice will float in ethanol because ethanol has a lower density compared to water. When ice is placed in ethanol, the difference in density causes the ice to be less dense, and therefore float. This is different from water, where the ice is denser than the liquid water and sinks.
technical grade is bethween 96% and 98% ethanol and ethanol absolute means pure ethanol whithout water ('almost') 99.9% ethanol Absolute ethanol has no water whereas 96% ethanol has 4% water or 98% has 2% water. Thus, the reaction can occur with water.
Vodka has 40% ethanol in it, water doesn't.
The polarity difference between ethanol and water affects their interactions in a solution because water is a polar molecule with positive and negative charges, while ethanol is also polar but less so. This difference in polarity allows ethanol and water to mix well together, forming a homogeneous solution. The positive and negative charges in water attract the ethanol molecules, leading to strong interactions between the two substances.
Methanol is CH3OH while ethanol is C2H5OH. The difference is CH2.
Yes, steam distillation of ethanol can be done using a mixture of ethanol and water. The mixture will allow for separation of the ethanol from the water by taking advantage of the difference in boiling points between the two compounds.
Ethanol is a general term for the chemical compound with the formula C2H5OH, commonly known as alcohol. Absolute ethanol refers to ethanol that is at least 99% pure, with the remaining percentage being water. Absolute ethanol is often used in scientific and industrial applications where purity is critical.
There is no difference between ethyl alcohol and ethanol, they are the same substance. Ethanol is the chemical name for the alcohol commonly found in beverages and used in industry.
To obtain a concentrated solution of ethanol from a dilute ethanol-water solution, distillation is commonly used. This process leverages the difference in boiling points between ethanol (approximately 78.4°C) and water (100°C). By heating the mixture, ethanol vaporizes first, allowing it to be collected and condensed back into liquid form, resulting in a higher concentration of ethanol. This method is efficient and widely employed in both laboratory and industrial settings.
Ice will float in ethanol because ethanol has a lower density compared to water. When ice is placed in ethanol, the difference in density causes the ice to be less dense, and therefore float. This is different from water, where the ice is denser than the liquid water and sinks.
technical grade is bethween 96% and 98% ethanol and ethanol absolute means pure ethanol whithout water ('almost') 99.9% ethanol Absolute ethanol has no water whereas 96% ethanol has 4% water or 98% has 2% water. Thus, the reaction can occur with water.
The mixture water-ethanol is homogeneous.
Distillation is based on the difference between boiling points of liquids. Ethanol is separated first.The distillation is possible only to an ethanol concentration of 95,63 % because an azeotropic mixture is formed.
The boiling point of ethanol-water mixtures varies depending on the ratio of ethanol to water. Generally, the boiling point of these mixtures falls between the boiling points of pure ethanol (78.37C) and pure water (100C). The boiling point increases as the ethanol content in the mixture increases.