They are All Liquid
They are all liquids at normal temperatures.
oxygen because it is a gas while oil,alcohol and mercury is liquid.
Mercury is the only metal that remains liquid at room temperature.
Water, oil, and mercury are arranged in increasing order of density. Water is less dense than oil, which is less dense than mercury. So the order would be water (less dense), oil, and then mercury (most dense).
Water, ethyl alcohol, propyl alcohol, oil. Water has the highest specific gravity followed by ethyl alcohol, propyl alcohol, and oil, which has the lowest specific gravity.
They are all liquid at room temperatures.
They are all liquid at room temperatures.
They are all liquids at normal temperatures.
water alcohol mercury gas oil What else?
oxygen because it is a gas while oil,alcohol and mercury is liquid.
Mercury is the only metal that remains liquid at room temperature.
Water, oil, and mercury are arranged in increasing order of density. Water is less dense than oil, which is less dense than mercury. So the order would be water (less dense), oil, and then mercury (most dense).
Water, ethyl alcohol, propyl alcohol, oil. Water has the highest specific gravity followed by ethyl alcohol, propyl alcohol, and oil, which has the lowest specific gravity.
Vodka (alcohol) and Orange Juice are good examples of liquids. So are oil and water.
Water is a polar molecule with a high surface tension and boiling point, oil is nonpolar and tends to be hydrophobic, mercury is a dense liquid metal that has a high density and low boiling point, and alcohol is a polar solvent that can dissolve a wide variety of substances.
Mercury is the best conductor of heat among the liquids you mentioned. Mercury has high thermal conductivity due to its structure and metallic properties, allowing it to efficiently transfer heat. Alcohol and oil have lower thermal conductivity compared to mercury.
Examples of immiscible liquids include oil and water, gasoline and water, and vinegar and oil. Immiscible liquids do not mix together to form a homogeneous solution and instead separate into distinct layers.