no, there is no difference
Yes, the temperature at which a substance boils is a property of the substance itself and not how much you have.
no
amount of energy required to heat 1 liter of water completely depends on the desired change in temperature. q = Cg m ∆T ∆T = q/ (Cg x m) = 4180/(4.18 x 1000) = 1 4180 J would heat 1 liter of water by 1 oC
Heat
For what?It requires a heat gain for the water,but a heat loss for whatever the water is in contact with.
Latent heat is the measurement of energy needed to change the state of a substance at its melting point or boiling point. The latent heat of fusion of water is the amount of energy needed to change a fixed amount of water from a solid to liquid at 0 degrees C. this works out to be more than 800KJ of heat energy. The latent heat of vaporization of water is the amount of energy needed to change a fixed amount of water from a liquid to a gas at 100 degrees C. this is more than 1200KJ of heat needed to be absorbed.
The energy which must be transferred to or from a sample of water in order to change it's state is called the Latent Energy or Latent Heat - for example Latent Heat of Evaporation or Latent Heat of Freezing.
The 2 litres will have more thermodynamic energy - even if it not as hot.
amount of energy required to heat 1 liter of water completely depends on the desired change in temperature. q = Cg m ∆T ∆T = q/ (Cg x m) = 4180/(4.18 x 1000) = 1 4180 J would heat 1 liter of water by 1 oC
the heat is a form of energy...and heat is stored is the water...so heat energy become potential energy because heat is stored in water
The heat energy causes the molecules of H2O to move faster, imparting greater kinetic energy, and the temperature of the water increases.
Several types of energy can be used to heat water. Electric energy can heat water, like in a coffee maker. Chemical energy can be used as in a gas stove.
No energy, no heat. So you cannot add heat.
Water molecules retain energy due to heat transfer.
Calor is a latin prefix meaning heat. A Calorie is actually a unit of energy based on the energy needed to raise one liter of water one celsius degree
If one were to pour a liter of water at 40 degrees C into a liter of water at 20 degrees C, the final temperature of the two liters of water becomes 30 degrees C. This is because the free energy capacity, or heat carrying capacity of the two additives are the same, since they are both water.
It has two reasons: 1.The specific heat of water is around four times higher than the specific heat of air, that is the water takes the energy from the hot horseshoe 4 times faster at the same temperature. 2. One liter of water contains more molecules than one liter of air, that is there are more mass around the horseshoe in water to take the heat than in air.
It surely depends on how big the iceberg is ,as a really big iceberg contains a lot of thermal energy and much more than a liter of hot water.
If you mean the water in the oceans, it is the sun's energy that does this. Water absorbs Kinetic Energy to 'heat up'. Therefore, any energy source that can impart Kinetic Energy to Water will heat it.