Its all about the sheer volume of an ice burg compared with the volume of the cup of tea. Although the tea is a lot hotter, some 100'C, the ice burg itself still has heat energy, even below 0'C. That's because its not at absolute zero or -273'C.
Using absolute zero as a base, or degrees Kelvin, the iceberg will be at around 260-270 Kelvin. The tea may be around 360-370 Kelvin, 100 degrees warmer - but this difference is then overwhelmed by the sheer size of the iceberg.
Energy powered by geysers is thermo energy, that is energy caused by temperature. This is more popular in other countries as a means of both energy and heat when compared to the United States. I hope this answers your question.
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.
Solid has more energy. It has extensive energy as compared to liquid and gas.
Heat energy is the result of particles vibrating, when you heat something up it causes the particles in it to vibrate more, which we experience as heat. Its all to do with the amount of internal energy something has. Do you need more detail?
yes because to be a gas it needs more heat and heat is energy, although if you smash a piece of ice in the ground it might have more energy
Compared to other types of light-bulb, energy-saving light bulbs will create less heat. This is because any wasted energy is converted to heat.
Fat contains more caloric energy per unit.
yes
Thermal energy is heat. More heat is more thermal energy.
Energy powered by geysers is thermo energy, that is energy caused by temperature. This is more popular in other countries as a means of both energy and heat when compared to the United States. I hope this answers your question.
The air heats faster than the water because water has a higher heat capacity. As a result water takes four times more heat energy as compared to air.
Thermal energy is not light. It is heat! Energy of heat and temperature of matter (more heat=more thermal energy=more movement of molecules) Temperature measures movement of molecules
Thermal energy is heat. More heat is more thermal energy.
The combustion of methanol to form products of H2O and CO2 do not have as much of an energy change compared to methane and a result methanol releases less energy compared to methane. The more negative an enthalpy change is, the more heat it is going to release.
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.
They use less power for an equivalent amount of illumination compared to incandescent lights which waste a lot of energy in heat.
It has a much higher volume of water compared to the tea cup. It takes less energy to heat a small amount of liquid such as a tea cup.