Water has a higher heat capacity than air because its molecules are closely packed together, allowing them to absorb more heat energy before increasing in temperature. Air molecules are more spread out, so they require less energy to increase in temperature compared to water.
Humid air holds more heat compared to dry air because water vapor in the air can absorb and retain more heat energy than dry air. This is because water molecules have a higher heat capacity than air molecules, allowing them to store more heat energy.
2 liters of hot water will have more heat energy than 1 liter of hot water because there is a greater quantity of water to hold heat energy. The total heat energy in a system is directly proportional to the mass of the substance and its temperature.
A tank typically contains more heat energy than a kettle, as it has a larger volume and can hold more hot water. The amount of heat energy is directly proportional to the mass of the water and its temperature.
Water has a higher specific heat capacity than gold, meaning it requires more energy to raise its temperature. This is because water molecules can hold more heat energy due to their intermolecular structure compared to gold. As a result, more energy is needed to increase the kinetic energy of water molecules and raise the temperature of water.
No, water is a better conductor of heat than glass. Water has a higher thermal conductivity, allowing it to transfer heat more efficiently than glass. Glass is a relatively poor conductor of heat compared to water.
Water can hold more heat than ice before it changes states. For example, when you add heat to ice, it changes to water almost immediately. When you add heat to water it takes more to turn it into steam.
Water has a higher specific heat capacity compared to pure or drinking alcohol. This means that water can hold more heat energy per unit mass. Therefore, water can absorb and retain more heat energy compared to alcohol.
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Water holds heat longer than land because it has a higher specific heat capacity, meaning it takes more energy to raise its temperature. As a result, water can absorb and retain heat more effectively than land. This is why coastal areas tend to have milder temperatures compared to inland areas, as water moderates the climate by releasing heat slowly.
Humid air holds more heat compared to dry air because water vapor in the air can absorb and retain more heat energy than dry air. This is because water molecules have a higher heat capacity than air molecules, allowing them to store more heat energy.
Water has a higher specific heat capacity than land, meaning it can absorb and retain heat more effectively than land. As a result, water typically takes longer to heat up or cool down compared to land. This is why coastal areas often experience milder and more stable temperatures than inland regions.
Yes, oil holds heat longer than water due to its higher specific heat capacity. This means that it takes more energy to change the temperature of oil compared to water, resulting in oil retaining heat for a longer period of time.
2 liters of hot water will have more heat energy than 1 liter of hot water because there is a greater quantity of water to hold heat energy. The total heat energy in a system is directly proportional to the mass of the substance and its temperature.
Sand typically holds heat longer than water because sand has a lower heat capacity than water, meaning it requires less energy for its temperature to increase. This allows sand to retain heat for a longer period of time compared to water, which has a higher heat capacity and can lose its heat more quickly.
Yes, the boiling water has more heat than the match flame.
Salt water holds more heat than fresh water
It takes more heat to boil water than to simply heat water. Unless the water is already at its boiling point.