it has less denser than water
The temperature of paraffin rises more quickly than that of water when equal masses are heated because paraffin has a lower specific heat capacity than water. This means that it requires less energy to raise the temperature of paraffin by one degree Celsius compared to water. Consequently, with the same rate of heat supply, the 100 g of paraffin will experience a faster increase in temperature than the 100 g of water.
Paraffin generally cools slower than water due to its lower thermal conductivity. This means that it takes longer for heat to transfer through paraffin, resulting in a slower rate of cooling compared to water.
Paraffin wax has a lower specific heat capacity than water, meaning it requires less energy to raise its temperature. As a result, paraffin cools down faster than water because it releases heat more rapidly. Additionally, paraffin has a lower thermal conductivity compared to water, further contributing to its faster cooling rate.
because water can hold more mass than paraffin. BOILING POINT: water- 99.98(degree)C paraffin: 370(egree)C
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.
The temperature of paraffin rises more quickly than that of water when equal masses are heated because paraffin has a lower specific heat capacity than water. This means that it requires less energy to raise the temperature of paraffin by one degree Celsius compared to water. Consequently, with the same rate of heat supply, the 100 g of paraffin will experience a faster increase in temperature than the 100 g of water.
Paraffin generally cools slower than water due to its lower thermal conductivity. This means that it takes longer for heat to transfer through paraffin, resulting in a slower rate of cooling compared to water.
Paraffin wax has a lower specific heat capacity than water, meaning it requires less energy to raise its temperature. As a result, paraffin cools down faster than water because it releases heat more rapidly. Additionally, paraffin has a lower thermal conductivity compared to water, further contributing to its faster cooling rate.
because water can hold more mass than paraffin. BOILING POINT: water- 99.98(degree)C paraffin: 370(egree)C
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.
When paraffin is poured into water, it will float because paraffin is less dense than water. This is because paraffin is a type of hydrocarbon that is nonpolar and does not mix with water, which is a polar molecule. The two substances will not dissolve or mix together.
Cold water is dense and cold water sinks, just like air, cold air falls and hot air rises.
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.
Soy wax burns slower than paraffin wax because it has a lower melting point and a cooler burning temperature. This means that soy wax candles typically have a longer burn time compared to paraffin wax candles.
Steam rises off a lake in winter because the water in the lake is warmer than the surrounding air temperature. When the cold air comes into contact with the warm water, it causes the water to evaporate and rise as steam or water vapor.
When paraffin oil and water are poured into a container, the paraffin oil forms a layer on top of the water because it is less dense than water. This difference in density causes the oil to float, creating a distinct separation between the two liquids. Additionally, paraffin oil is non-polar, while water is polar, leading to poor miscibility and further reinforcing the separation. As a result, the two substances do not mix and remain as distinct layers.
No. It increases. Warmer air can hold more water than colder air.