If water absorbs a large amount of energy it boils.
The coaster have a large amount of potential energy when it gain height, kinetic energy when it gain speed instead.
Yes, when a liquid vaporizes and changes to a gaseous state, it absorbs a significant amount of heat energy from its surroundings. This heat energy is required to break the intermolecular forces holding the liquid molecules together and to overcome the energy barrier for the phase transition.
Molten lava from a volcano has a large amount of thermal energy due to its high temperature.
The large amount of energy released by a nuclear reaction comes from the conversion of mass into energy, as described by Einstein's famous equation E=mc^2. This means that a small amount of mass is converted into a large amount of energy during nuclear reactions.
amplitude
The energy in the fission process comes from the splitting of an atomic nucleus into smaller parts. When a heavy nucleus such as uranium-235 absorbs a neutron and splits into two lighter nuclei, it releases a large amount of energy in the form of heat and gamma radiation.
jumps to the a higher orbital. This is only possible if the energy it absorbed is large enough to let it jump the gap. If the energy is not large enough for the electron to jump that gap, the electron is forbidden to absorb any of that energy.
The large amount of heat required to melt ice and boil water is due to the energy needed to break the intermolecular bonds that hold the water molecules together in a solid or liquid state. This process absorbs energy and increases the temperature until the phase change is complete.
Large accumulations of ozone are found in the stratosphere. The ozone layer is the lowest part of the stratosphere and absorbs the highest amount of the sun's rays.
This is due to the mass-energy equivalence principle, described by the famous equation E=mc^2. Even a small amount of mass contains a large amount of potential energy, which can be released as a significant amount of energy through processes like nuclear reactions or nuclear fission.
Cell division
The temperature of a substance with a large amount of thermal energy will be higher compared to a substance with lower thermal energy. Thermal energy is directly related to temperature, so as the amount of thermal energy increases, the average kinetic energy of the particles in the substance increases, leading to a higher temperature.