Around 0.8 kg per litre or 0.8 grams per cubic centimeter (where water is 1 kg per litre or 1 gram per cubic centimetre).
Water
You need to know the density of the paraffin. Density is defined by unit of mass per unit of volume. Paraffin oil has a density of approximately 0.8 gm per cubic cm. Paraffin wax slightly more at 0.9 gm per cubic cm.
Ice will float deeper in water than in paraffin. This is because the density of ice is lower than that of water, making it buoyant in water. However, paraffin has a lower density than water, so ice will sink deeper in paraffin.
because water can hold more mass than paraffin. BOILING POINT: water- 99.98(degree)C paraffin: 370(egree)C
The density of paraffin wax is approximately 0.9 grams per milliliter. Therefore, 5 liters of paraffin wax would weigh approximately 4500 grams or 4.5 kilograms.
No, water and paraffin do not mix. Paraffin is a hydrocarbon and is non-polar, while water is polar, meaning they have different chemical properties that prevent them from forming a homogeneous mixture. When combined, paraffin typically floats on top of the water due to its lower density.
The mass of the paraffin can be calculated using the formula: mass = density x volume. Plugging in the values, mass = 0.8 g/cm³ x 10 cm³ = 8 grams. Therefore, the mass of the paraffin is 8 grams.
depends on the type of wax. Beeswax candels should float because their density is slightly less than that of water.
Paraffin produces more energy per gram burned compared to ethanol. This is because paraffin has a higher energy density due to its chemical composition, which allows it to release more energy when combusted. Ethanol, on the other hand, has a lower energy content per gram.
Oak wood is less dense than water, which allows it to float. In contrast, paraffin is denser than water, causing it to sink. This difference in density determines whether an object will float or sink in water.
The bonding in paraffin wax is primarily van der Waals forces, specifically London dispersion forces. These forces arise due to temporary fluctuations in electron density, leading to attraction between molecules. Due to the nonpolar nature of paraffin wax, these weak intermolecular forces are significant in holding the molecules together.
Paraffin has covalent bonds.