The specific heat of liquid water is 4.183 J / g K. Lithium liquid has a higher specific heat at 4.379, as does Hydrogen gas at 14.30. Helium gas also does at 5.1932 Finally, liquid Ammonia has a higher specific heat at 4.700.
Someone Else:No because water has a higher specific heat than soil No because water has a higher specific heat than soil Also because water as a higher heat capacity than land. Duhh... It is not because of whatever that other person wrote. I'm just improving their answer! Yay Me!!! No.land will absorbs heat faster than water Beause the soil locks heat in
Water has a high specific heat capacity because it is a relatively light molecule (18 grams per mole). The specific heats of molecules are all about the same on a per-molecule basis, especially at higher temperatures. This is called the law of Dulong and Petit. At low temperatures, it gets more complicated because the vibrations of molecules are quantized. When specific heats are measured on a per-gram basis, lighter molecules have higher specific heats. For example, the specific heat of hydrogen (H2), which has a molecular weight of 2 grams per mole, is much higher than that of water. Liquid water has a higher specific heat than most other liquids (such as alcohols) because its molecules are lighter.
Because sunlight penetrates to greater depths in land than in water.Land is dry, but water washes up onto water surfaces making it wet.
It means that it takes more energy to produce the same increase in temperature in the same amount. For example it takes more energy to raise the temperature of 1 gram of water by 1 degree than it does to do the same with 1 gram of iron. Therefore water has a higher specific heat.
The specific heat capacity of water is about 4.18kJ/kg*K while the specific heat of seawater is about 3.95kJ/kg*K Specific heat capacity is a measure of heat required to increase temperature of something by Celsius or Kelvin. Since water's heat capacity is great than that of seawater, then it takes more heat to bring its temperature up
Water has much higher specific heat than lead. All metals have fairly low specific heat values.
Someone Else:No because water has a higher specific heat than soil No because water has a higher specific heat than soil Also because water as a higher heat capacity than land. Duhh... It is not because of whatever that other person wrote. I'm just improving their answer! Yay Me!!! No.land will absorbs heat faster than water Beause the soil locks heat in
Water has a higher Specific Heat than soil. The very highest is ammonia.
Water has a higher specific heat, and this is an intensive property of the substance itself.
Water has a higher specific heat capacity compared to hydrogen. This means that it takes more energy to raise the temperature of water than it does for hydrogen. Water's high specific heat capacity is one reason why it is able to absorb and store large amounts of heat, which helps regulate temperature in bodies of water and maintain stable climates in coastal areas.
No, liquid water has a higher heat capacity than liquid ammonia. Water has a high specific heat capacity due to its hydrogen bonding, which allows it to absorb and release heat more effectively than ammonia.
The specific heat of water is 4184 J kg-1 K-1 The specific heat of copper 385 J kg-1 K-1. So the answer is no.
Water has a higher specific heat than the land. This means that the surface of the water will heat up slower and cool down slower than the land.
Water has a higher specific heat capacity than air, which means it requires more energy to raise its temperature. Additionally, water has a higher density than air, so it takes longer for heat to transfer through water compared to air. Overall, these properties make water heat up slower than air.
No, water heats up more slowly than land because water has a higher specific heat capacity. This means that it requires more energy to raise the temperature of water compared to land. Additionally, water can also distribute heat more evenly due to its higher heat capacity, which can affect the rate at which it heats up compared to land.
No, water has a higher specific heat capacity than aluminium. This means water can absorb and store more heat energy per unit mass compared to aluminium before its temperature increases.
Yes, substances like ammonia, hydrogen, and liquid metals such as mercury and sodium have higher specific heat capacities than water. For example, the specific heat capacity of ammonia is almost double that of water.