I think the answer is in your question, because it takes more heat to warm up something with greater temperature
This temperature is not calculated.
The heat energy causes the molecules of H2O to move faster, imparting greater kinetic energy, and the temperature of the water increases.
I suppose that you think to cubic kilometres.The needed energy is 484.10e12 calories.
They would have the same volume, as long as they are in the same conditions.
The kinetic energy of a projectile is directly proportional to its mass. When the projectile strikes, it transfers its kinetic energy to the target in the form of damage. For a fixed volume, a greater density means a higher projectile mass (density=mass/volume). Therefore a higher density means greater damage in the form of penetration and fragmentation.
High temperature makes the volume greater.
The greater the speed of gas particles in a container, the higher the overall average temperature and kinetic energy of the gas particles. And if volume was held constant, higher the pressure.
This temperature is not calculated.
Because there is less water. Because it needs less heat energy. Because the heat energy required to heat something up is the product of mass x (heat capacity) x (temperature difference).
Kilowatts is a unit of energy rate, while the temperature required to raise a specific volume of water by a specific amount of degrees is a unit of energy, not energy rate. The question cannot, therefore, be answered as stated. Please restate the question.
Temperature is when the heat measures the average of the kinetic energy Thermal is averged together with kinetic engery, and all the others, to make thermal energy
At a constant temperature, the volume and the pressure are inversely proportional, that it, the greater the volume, the lesser the pressure on the gas, and viceversa.
At a constant temperature, the volume and the pressure are inversely proportional, that it, the greater the volume, the lesser the pressure on the gas, and viceversa.
The heat energy causes the molecules of H2O to move faster, imparting greater kinetic energy, and the temperature of the water increases.
high
I suppose that you think to cubic kilometres.The needed energy is 484.10e12 calories.
They would have the same volume, as long as they are in the same conditions.