No, kerosene is not more viscous than bitumen. Kerosene is a low-viscosity liquid, typically used as a fuel, while bitumen is a highly viscous, thick substance often used in road construction and roofing. The viscosity of bitumen can be many orders of magnitude higher than that of kerosene, making it much more resistant to flow.
Yes, lubricating oil is generally more volatile than bitumen. Lubricating oils are composed of lighter hydrocarbons and have lower boiling points, allowing them to evaporate more readily at ambient temperatures. In contrast, bitumen is a thick, viscous substance made up of heavier hydrocarbons, which results in lower volatility and a higher boiling point. This difference in volatility is a key factor in their respective applications and behaviors.
No, things do not float more on kerosene than oil because both kerosene and oil have similar densities. In general, objects will float on a liquid if their density is lower than that of the liquid.
No, basaltic lavas are typically hotter and less viscous than andesite lavas. Basaltic lavas have lower silica content, which results in their lower viscosity and ability to flow more easily. Andesite lavas, on the other hand, have higher silica content and are more viscous.
Basaltic lavas are generally hotter and less viscous than andesite lavas. Basaltic lavas have lower silica content, which makes them flow more easily. Andesite lavas, on the other hand, have higher silica content, making them cooler and more viscous.
Kerosene burns slower than gasoline because it has a higher flash point and is less volatile. This means that kerosene requires more time and heat to ignite and burn compared to gasoline.
Petrol and kerosene are more flammable than diesel, gas, and bitumen. Diesel and gas require higher temperatures to ignite, while bitumen is a thick, viscous substance with a higher flash point, making it less flammable than the other options.
Heavy fuel oil is typically more viscous than kerosene. Heavy fuel oil is thicker and more dense, making it harder to flow compared to kerosene.
Honey is more viscous than kerosene because honey is a thick, sticky liquid composed of sugars and water molecules that resist flow. Kerosene is a thinner, less viscous liquid composed of hydrocarbons that flow more easily. Honey's higher viscosity means it is more resistant to flowing compared to kerosene.
viscous, and yes, it is a thicker liquidthan diesel
Liquid nitrogen is less viscous than water.
Water and wax do not go together. Think of the reason why people wax their cars. If the car gets wet the wax allows the water to form droplets and slide off. The wax and the water do not mix. Another way to think of it is floating candles. If the wax dissolved in the water then it wouldn't be a floating candle anymore. So my guess is that it is more soluble in kerosene.
tar - obtained by destructive distillation of coal , it is less viscous as it is boiled with volatile fluids like kerosene bitumen - obtained by fractional distillation of crude oil , has more viscosity than tar , soluble in carbon disulphide and has higher B.P than tar
Yes, lubricating oil is generally more volatile than bitumen. Lubricating oils are composed of lighter hydrocarbons and have lower boiling points, allowing them to evaporate more readily at ambient temperatures. In contrast, bitumen is a thick, viscous substance made up of heavier hydrocarbons, which results in lower volatility and a higher boiling point. This difference in volatility is a key factor in their respective applications and behaviors.
Water is more viscous than methylated spirits, and vegetable oils are more viscous than water.
Yes, oil is typically denser than kerosene. Oil has a higher density due to its composition, which can include a variety of hydrocarbons and impurities. Kerosene, on the other hand, is a lighter distillate of petroleum and has a lower density compared to many types of oil.
Toothpaste is more viscous because it flows less freely than milk.
the intermolecular attractionsis account for this behaivour of honey.