Having a higher than normal body temperature can destroy many cells in the body. However, it can also strengthen the immune cells in the body to fight off whatever is causing the high temperature.
When cells are exposed to excessive heat, the heat disrupts the bonds within the cell walls, making them weak and structurally unsound.
It will have affect over whatever the cell is in, and most likely, on humans, that is fever.
they evaporate
They start to contract
The molecules move slower when heat is removed.
heat transfers to the water molecules
When you heat water, like anything else, its temperature or energy increases. The molecules will have more and more motion, i.e. more and more energy - this is the definition of temperature. At the boiling point of water, which varies depending on pressure, if you continue to heat it the molecules will start to disassociate and they will become gaseous.
If You're suggesting what happens to water when heated then the answer is: Water molecules speed up by the heat increasing it's temperature and when it reaches 100 Degrees the molecules are so fast that the water turn into a gas (Steam) But if you are just asking about the temperature then; When you heat water the temperature also increases.
The question appears to be: What happens if H2O is added to NaOH? NaOH will split into ionic molecules, and will heat up the water. In fact, adding water to NaOH is dangerous as it can cause splashes from extreme rise in temperatures.
When heat is added to the water, the molecules move faster. When the water reaches the boiling point (100 Degree Celsius), the water molecules at the surface of the water would break apart with the other molecules and escape (evaporate). When they evaporate, the water molecules changes state and becomes water vapour.
the molecules absorb heat and start moving rapidly changing from solid to liquid
The molecules move slower when heat is removed.
The molecules of water slow down and eventually stop when you hit absolute zero.
the molecules will decrease in motion
When a rubber band is exposed to heat it contracts heat, meaning that sucks up all the heat and becomes smaller.
Water molecules retain energy due to heat transfer.
When the heat is added to water, the atoms in the water particle get enough energy, they end up being so poweful, they are able to pull away from other atoms and bounce around. It's sort of like heating water, the water is getting boiled and the water turns to steam. When energy/heat is taken away from the gas form, the steam turns back into a water form. To make it simple, The molecules get energy from heat.
Heat transfer
heat transfers to the water molecules
When you heat water, like anything else, its temperature or energy increases. The molecules will have more and more motion, i.e. more and more energy - this is the definition of temperature. At the boiling point of water, which varies depending on pressure, if you continue to heat it the molecules will start to disassociate and they will become gaseous.
Heating water molecules causes them to move faster and faster. Water when cool is in a way (sticky). When heated the water molecules are moving far too quickly stick together. The heated water molecules become less dense and may stick to air molecules. Floating into and combining with the atmosphere.