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Land tends to change temperature more rapidly than water. This is because land has a lower specific heat capacity compared to water, meaning it requires less energy to change its temperature. As a result, land can heat up and cool down more quickly than water.
Water resists changes in temperature. Therefore, water requires more heat to increase it's temperature than do most other common liquids.
change in temperature does not effect specific heat. for example,specific heat of water is 4.14 j/g.k at any temperature
The teamperature does not change
The specific heat capacity of water does not change much within-phase (ie, as a solid it has one specific heat capacity, as a liquid/gas it has another)
Land tends to change temperature more rapidly than water. This is because land has a lower specific heat capacity compared to water, meaning it requires less energy to change its temperature. As a result, land can heat up and cool down more quickly than water.
yes for it requires more specific heat to raise 1g of water than 1g of sulfuric acid
"specific heat"
Water resists changes in temperature. Therefore, water requires more heat to increase it's temperature than do most other common liquids.
Sand needs least energy to increase the temperature as its specific heat is very low compared to that of water. Water needs more energy to increase its temperature as its specific heat capacity is higher.
Water has a greater specific heat capacity.
As mass in a sample increases, it requires more energy to alter the temperature. The energy required is equal to the specific heat of the sample, multiplied by the mass, multiplied by the temperature change.
change in temperature does not effect specific heat. for example,specific heat of water is 4.14 j/g.k at any temperature
heat energy required to raise the temperature of ice by 29 celsius =specific heat capacity of ice * temperature change *mass of ice + to change 1kg of ice at 0 celsius to water at 0 celsius =specific latent of fusion of ice*mass of water + heat energy required to raise the temperature of water by 106 celsius =specific heat capacity of water * temperature change *mass of ice + to change 1kg of water at 106 celsius to steam at 106 celsius =specific latent of fusion of ice*mass of steam
The teamperature does not change
Water has a high specific heat. This characteristic makes water stubern to change in its temperature. So since the water in the oceans and such never have there temperatures drastically changed the planet around it does not have to drastically change either.
The specific heat capacity of water does not change much within-phase (ie, as a solid it has one specific heat capacity, as a liquid/gas it has another)